KR102191888B1 - Connecter assembly - Google Patents

Abstract

The present invention relates to a connector assembly. An aspect of an embodiment of a connector assembly according to the present invention includes a first housing provided with a stopper, and a first connector including a first circuit contact portion and a first power contact portion installed in the first housing; A second housing coupled to and separated from the first housing, and a second circuit contact unit that is installed in the second housing and selectively contacts the first circuit contact unit and the first power contact unit when the first and second housings are coupled And a second connector including a second power contact portion; A lever that is rotatably coupled to the first housing and provides an external force to the second housing to separate the second housing from the first housing; And a rotation limiting device installed on the lever and selectively restricting a rotation range of the lever by selectively engaging the stopper. Including, When the lever is rotated to separate the first and second housings, the first and second circuit contact portions are spaced apart from each other, the first and second power contact portions are spaced apart, the rotation limiting device When the rotation range of the lever is limited by, the first and second circuit contacts are separated from each other in the process of separating the first and second housings, and the first and second power contacts remain in contact with each other. When the lever rotates only up to and the limit of the rotation range of the lever by the rotation limiting device is released, the first and second circuit contact portions are separated, and the first and second power contact portions are in contact with each other. The lever is rotated to a range where the first and second power contacts are spaced apart.

Description

Connector assembly {CONNECTER ASSEMBLY}

The present invention relates to a connector assembly.

High voltage connectors are used in electric vehicles and hybrid vehicles on the market in recent years. Such a high-voltage connector is provided with a high-voltage interlock function to prevent the occurrence of an arc in the process of coupling and disconnecting the connector in order to ensure the safety of the operator and prevent damage to the component. That is, in the process of separating the connector assembly, power is cut off after the interlock circuit is separated, and in the process of assembling the connector assembly, power is applied before the interlock circuit is connected. However, since the time difference between the implementation of the conventional interlock function and the actual connection and separation of the connector assembly is short, there is a disadvantage that the occurrence of an arc during the connection and separation of the connector assembly is not effectively prevented.

The present invention is to solve the problems of the prior art as described above, and an object of the present invention is to provide a connector assembly configured to more efficiently prevent the occurrence of an arc.

One aspect of an embodiment of a connector assembly according to the present invention for achieving the above object is a first housing including a stopper, and a first circuit contact portion and a first power contact portion installed in the first housing. connector; A second housing coupled to and separated from the first housing, and a second circuit contact unit that is installed in the second housing and selectively contacts the first circuit contact unit and the first power contact unit when the first and second housings are coupled And a second connector including a second power contact portion; A lever that is rotatably coupled to the first housing and provides an external force to the second housing to separate the second housing from the first housing; And a rotation limiting device installed on the lever and selectively restricting a rotation range of the lever by selectively engaging the stopper. Including, When the lever is rotated to separate the first and second housings, the first and second circuit contact portions are spaced apart from each other, the first and second power contact portions are spaced apart, the rotation limiting device When the rotation range of the lever is limited by, the first and second circuit contacts are separated from each other in the process of separating the first and second housings, and the first and second power contacts remain in contact with each other. When the lever rotates only up to and the limit of the rotation range of the lever by the rotation limiting device is released, the first and second circuit contact portions are separated, and the first and second power contact portions are in contact with each other. The lever is rotated to a range where the first and second power contacts are spaced apart.

In an aspect of an embodiment of the present invention, the rotation limiting device includes: an installation space formed in the lever and in which an entry/exit opening is formed; A driving member installed in the installation space and provided with a stopping protrusion selectively applied to the stopper by being in and out of the installation space through the entry/exit opening; And an elastic member for imparting an elastic force to the driving member so that the stopping protrusion protrudes to the outside of the installation space. Includes.

In one aspect of the embodiment of the present invention, the installation space is formed in a polyhedral shape in which one surface thereof is opened, and the rotation limiting device further includes a cover member for shielding the opened surface of the installation space.

In one aspect of the embodiment of the present invention, the driving member includes: a driving protrusion positioned on the first guide slot and moving along the first guide slot according to the putting in and out of the stopping protrusion; A locking protrusion inserted into a locking hole formed on one surface of the installation space or positioned on the first guide slot according to the in/out of the stopping protrusion; And an operation of being located on a second guide slot formed on the other surface of the installation space, and moving along the second guide slot by an operator to accommodate the stopping protrusion into the interior of the installation space through the entry/exit opening. spin; Is provided, and when the operation protrusion is moved along the second guide slot in order to receive the stopping protrusion into the installation space through the entry/exit opening, the driving protrusion moves along the first guide slot , The locking protrusion is removed while being inserted into the locking hole and is positioned on the first guide slot.

In one aspect of the embodiment of the present invention, the locking protrusion is provided with an inclined guide surface for preventing interference with the locking hole in the process of being removed from the locking hole.

In one aspect of the embodiment of the present invention, the driving member is provided with the driving protrusion and the locking protrusion, and an elastic part that elastically deforms with respect to the driving member is provided on the first guide slot while the lever is rotated. When the positioned locking protrusion is pressed by one side of the first housing, the locking protrusion is removed from the first guide slot due to elastic deformation of the elastic portion.

In one aspect of the embodiment of the present invention, in the process of being pressed by one side of the first housing, the driving protrusion has an inclination preventing rotation interference of the lever due to contact between one side of the first housing and the driving protrusion. A guide surface is provided.

Another aspect of an embodiment of the present invention includes a first housing provided with a stopper, and a first connector including a first circuit contact portion and a first power contact portion installed in the first housing; A second housing coupled to and separated from the first housing, and a second circuit contact unit that is installed in the second housing and selectively contacts the first circuit contact unit and the first power contact unit when the first and second housings are coupled And a second connector including a second power contact portion; A lever that is rotatably coupled to the first housing and provides an external force to the second housing to separate the second housing from the first housing; And a rotation limiting device installed on the lever and selectively engaging the stopper to selectively limit a rotation range of the lever. Including, wherein the lever is a locking position in which both the first and second circuit contact portions and the first and second power contact portions are in contact, the first and second circuit contact portions are spaced apart and the first and second power supply The contact portion is located at any one of a first release position in contact, and a trajectory connecting the first and second circuit contact portions and a second release position where both the first and second power contact portions are spaced apart, and the lever is When the rotation limiting device is rotated and positioned from the locking position to the first release position, the rotation limiting device is caught by the stopper, thereby limiting the rotation of the lever.

In another aspect of the embodiment of the present invention, the lever includes a pair of coupling portions rotatably coupled to the first housing; And a handle part connecting the coupling part. Includes.

In another aspect of an embodiment of the present invention, the coupling portion includes: a shaft through hole through which a pair of rotation shafts provided in the first housing respectively pass; And a guide slot that slides while a pair of interlocking protrusions provided in the second housing pass therethrough. Each of these is equipped.

In another aspect of the embodiment of the present invention, the guide slot has one end positioned inside the coupling portion, and the other end communicates with the outside of the coupling portion.

In another aspect of the embodiment of the present invention, the rotation limiting device includes: an installation space formed in a polyhedral shape in which one surface is opened in the handle portion, and in which an entry and exit opening, a first guide slot, and a locking hole are formed; A driving member installed in the installation space and provided with a stopping protrusion, a driving protrusion, a locking protrusion, and a manipulation protrusion; An elastic member imparting an elastic force to the driving member; And a cover member that shields the open surface of the installation space and has a second guide slot. Including, wherein the stopping protrusion is stored in and out of the installation space through the entry and exit opening and is selectively caught on the stopper, and in a process of storing and discharging the stopping protrusion, the driving protrusion is along the first guide slot And the locking protrusion is inserted into the locking hole or positioned on the first guide slot, and the manipulation protrusion moves along the second guide slot.

In another aspect of the embodiment of the present invention, when the operation protrusion moves along the second guide slot in order to accommodate the stopping protrusion through the entry/exit opening into the interior of the installation space, the driving protrusion is the first guide It moves along the slot, and the locking protrusion is removed from the locking hole while being inserted into the locking hole and is positioned on the first guide slot.

In another aspect of the embodiment of the present invention, the locking protrusion is provided with an inclined guide surface for preventing interference with the edge of the locking hole in the process of being removed from the locking hole.

In another aspect of the present invention, when the driving protrusion is pressed by one side of the first housing to protrude the stopping protrusion to the outside of the installation space through the entry/exit opening, the locking protrusion is the first It is removed from the guide slot and inserted into the locking hole, and the manipulation protrusion moves along the second guide slot.

In another aspect of the present invention, the driving protrusion and the locking protrusion are provided on an elastic portion that elastically deforms with respect to the driving member, and when the driving protrusion is pressed by one side of the first housing, the elastic portion is elastic Deformed so that the driving protrusion is removed from the first guide slot.

In another aspect of the present invention, in the process of being pressed by one side of the first housing, the driving protrusion has an inclination preventing rotation interference of the lever due to contact between one side of the first housing and the driving protrusion. A guide surface is provided.

Another aspect of an embodiment of the present invention includes a first connector; A second connector coupled to the first connector to connect an interlock circuit and to apply power, and separate from the first connector to cut off an interlock circuit and power; A lever that is rotatably installed on the first connector and provides a driving force for coupling and separating the first and second connectors to the second connector; And movably installed on the lever, and in the process of coupling the first and second connectors, power is applied before the connection of the interlock circuit, and in the process of disconnecting the first and second connectors, after the interlock circuit is cut off. A rotation limiting device for limiting a rotation range of the lever so that power is cut off; Including, and limiting and releasing the limit of the rotation range of the lever by the rotation limiting device is made at a predetermined time interval.

In the embodiment of the connector assembly according to the present invention, the rotation of the lever is limited by the rotation limiting device so that the connection and disconnection of the interlock circuit and the application and disconnection of power are sequentially performed. Therefore, according to the embodiment of the present invention, it is possible to expect an effect of efficiently preventing the occurrence of arcs in the process of coupling and detaching the connector assembly.

1 is a perspective view showing a state in which the embodiment of the connector assembly according to the present invention is coupled.
2 is a perspective view showing a first connector constituting an embodiment of the present invention.
3 is a perspective view showing a second connector constituting an embodiment of the present invention.
Figure 4 is a perspective view showing a lever and a rotation limiting device constituting an embodiment of the present invention.
Figure 5 is a perspective view showing the main portions of the lever and the rotation limiting device constituting the embodiment of the present invention from a different angle.
6 is a cross-sectional view showing a rotation limiting device constituting an embodiment of the present invention.
7 and 8 are perspective views showing a driving member constituting an embodiment of the present invention.
9 to 15 are operational state diagrams showing a process in which the first and second connectors are separated in the embodiment of the connector assembly according to the present invention.

Hereinafter, a configuration of an embodiment of a connector assembly according to the present invention will be described in more detail with reference to the accompanying drawings.

1 is a perspective view showing a state in which an embodiment of a connector assembly according to the present invention is coupled, FIG. 2 is a perspective view showing a first connector constituting an embodiment of the present invention, and FIG. 3 is a perspective view showing a first connector constituting an embodiment of the present invention. A perspective view showing a second connector, FIG. 4 is a perspective view showing a lever and a rotation limiting device constituting an embodiment of the present invention, and FIG. 5 is a different angle of main parts of the lever and rotation limiting device constituting the embodiment of the present invention. 6 is a sectional view showing a rotation limiting device constituting an embodiment of the present invention, and Figs. 7 and 8 are perspective views showing a driving member constituting an embodiment of the present invention.

1 to 8, the connector assembly according to the present embodiment includes a first connector 100, a second connector 200, a lever 300, and a rotation limiting device 400. The first connector 100 is installed, for example, in an automobile. In addition, the second connector 200 is coupled to the first connector 100 or separated from the first connector 100. The lever 300 provides a driving force for coupling or separating the first and second connectors 100 and 200. And the rotation limiting device 400, in the process of combining or disconnecting the first and second connectors 100, 200, the connection and disconnection of the interlock circuit and the application and disconnection of power is sequentially It serves to selectively limit the rotation range of the lever 300 so as to be achieved.

In more detail, the first housing 110 defines the appearance of the first connector 100. The first housing 110 may be formed, for example, in a polyhedral shape with an open bottom surface. Of course, the shape of the first housing 110 is not limited thereto.

The first housing 110 is provided with a first circuit contact portion 120 (see FIG. 7) and a first power contact portion 130 (see FIG. 7 ). The first circuit contact unit 120 is for connection of an interlock circuit, and the first power contact unit 130 is for application of power.

In addition, the first housing 110 is provided with a pair of rotation shafts 140, respectively. The rotation shaft 140 is a center of rotation of the lever 300 and the rotation limiting device 400. In this embodiment, the rotation shaft 140 protrudes outward from both sides of the edge surface of the first housing 110, respectively.

In addition, a pair of stoppers 150 are provided in the first housing 110. The stopper 150 is selectively contacted with the rotation limiting device 400 in order to limit the rotation range of the lever 300. For example, the stopper 150 may be provided on both sides of the edge surface of the first housing 110 adjacent to the rotation shaft 140. However, the stopper 150 must be formed at a position that does not interfere with the rotation of the lever 300.

Meanwhile, the second housing 210 defines the exterior of the second connector 200. Substantially, the second housing 210 may be formed in a polyhedral shape in which one surface is opened so as to be mated with the first housing 110.

Inside the second housing 210, a second circuit contact portion 220 (see FIG. 7) and a second power contact portion 230 (see FIG. 7) are provided. The second circuit contact unit 220 is for connection of an interlock circuit, and the second power contact unit 230 is for application of power. Substantially, when the second housing 210 is coupled to the first housing 110 or separated from the first housing 110, that is, a combination of the first and second connectors 100, 200 or According to the separation, the second circuit contact portion 220 and the second power contact portion 230 are in contact with the first circuit contact portion 120 and the first power contact portion 130, respectively, or the first circuit contact portion 120 And spaced apart from the first power contact unit 130.

In this embodiment, in the process in which the first and second housings 110 and 210 are coupled to each other, the first and second power contacts 130 and 230 are connected to the first and second circuit contact parts 120. ) Compared to 220, in a process in which the first and second housings 110 and 210 are separated from each other, the first and second circuit contact portions 120 and 220 are And the second power contacts 130 and 230 are relatively first separated from each other. That is, in the present embodiment, in the process of combining the first and second housings 110 and 210, the interlock circuit is connected after power is applied, and the first and second housings 110 and 210 ) Are separated from each other, the power is cut off after the interlock circuit is cut off.

In addition, the second housing 210 is provided with a pair of interlocking protrusions 240. When the lever 300 rotates with respect to the first housing 110, the interlocking protrusion 240 is interlocked with the second housing 210 to be coupled to the first housing 110 or the first housing 110. It is to be separated from the housing 110. The interlocking protrusions 240 protrude in the same direction as the rotation shaft 140 from both sides of the edge surface of the second housing 210.

The lever 300 provides a driving force for coupling or separating the first and second housings 110 and 210. To this end, the lever 300 is rotatably installed on the first housing 110. The lever 300 rotates with respect to the first housing 110 to adjust a locking position (see FIGS. 1 and 6), a first unlocking position (see FIG. 8), and a second unlocking position (see FIG. 11). It is located at any one of the connecting rotation trajectories. Here, the locking position refers to the position of the lever 300 in a state in which the first and second circuit contact portions 120 and 220 and the first and second power contact portions 130 and 230 are all in contact. . In addition, the first release position means that the first and second circuit contact portions 120 and 220 are spaced apart, and the first and second power contact portions 130 and 230 are in contact with the lever 300. Means the location of. In addition, the second release position refers to the position of the lever 300 in a state in which both the first and second circuit contact portions 120 and 220 and the first and second power contact portions 130 and 230 are in contact. it means. When the lever 300 is substantially rotated in the order of a locking position, a first release position and a second release position, the first and second housings 110 and 210 are separated by the lever 300 When an external force is provided in the direction in which the lever 300 rotates in the reverse order, the first and second housings 110 and 210 are coupled by the lever 300 External force is provided.

The lever 300 includes a pair of coupling portions 310 and a handle portion 320. The coupling part 310 is substantially a part rotatably coupled to the first housing 110. In addition, the handle part 320 is a part held by an operator to rotate the lever 300 with respect to the first housing 110. Both ends of the handle part 320 are substantially connected to the coupling part 310. For example, the lever 300 may be formed in a U-shape as a whole.

Each coupling hole 311 is formed in the coupling part 310. The coupling hole 311 is a place through which the rotation shaft 140 is coupled. The coupling hole 311 is formed by cutting a portion of the coupling portion 310 in the thickness direction.

In addition, guide slots 315 are formed in the coupling portions 310, respectively. When the lever 300 rotates with respect to the first housing 110, the guide slot 315 slides with the interlocking protrusion 240 inserted therein. The guide slot 315 is formed by cutting a portion of the coupling portion 310 into a predetermined shape in the thickness direction. In addition, one end of the guide slot 315 is located inside the coupling part 310, and the other end of the guide slot 315 communicates with the outside through one side of the coupling part 310. Therefore, substantially the interlocking protrusion 240 is inside and outside of the guide slot 315 through the other end of the guide slot 315 in the process of coupling and separating the first and second housings 110 and 210. It can be said that it is entered and exited.

In this embodiment, when the lever 300 is positioned in the locking position, the interlocking protrusion 240 is positioned at one end of the guide slot 315 or adjacent thereto. In addition, when the lever 300 is located in the first release position, the interlocking protrusion 240 is located at any one position between both ends of the guide slot 315. When the lever 300 is positioned in the second release position, the interlocking protrusion 240 may be positioned at the other end of the guide slot 315 or adjacent thereto.

Installation spaces 321 are respectively formed on both sides of the handle part 320 adjacent to the coupling part 310. The installation space 321 is a place where the rotation limiting device 400 is installed. In this embodiment, the installation space 321 is defined as inner surfaces facing each other on both sides of the handle part 320 are recessed outward, respectively. That is, the installation space 321 is formed in a polyhedral shape, for example, a hexahedral shape, which is opened on one side toward the outside of the handle part 320.

In addition, an entry/exit opening 323 is formed in the installation space 321. The entry/exit opening 323 is formed by cutting a portion of one surface of the installation space 321 orthogonal to the longitudinal direction of the coupling portion 310.

In addition, a first guide slot 324 and a locking hole 325 are formed in the installation space 321. The first guide slot 324 and the locking hole 325 are formed by cutting one surface of the installation space 321 and one surface of the installation space 321 substantially corresponding to the inner surface of the handle part 320. . In this embodiment, compared to the first guide slot 324, the locking hole 325 is positioned adjacent to the front end of the handle part 320, that is, the coupling part 310. In other words, the locking hole 325 is positioned adjacent to the entry/exit opening 323 compared to the first guide slot 324. In addition, the first guide slot 324 has a predetermined length in the longitudinal direction of the handle part 320.

A first support protrusion 326 is provided inside the installation space 321, substantially, on an inner surface of the installation space 321 corresponding to the opposite side of the entry/exit opening 323. The first support protrusion 326 is for one end of the elastic member 420 to be described later.

Meanwhile, the rotation limiting device 400 serves to selectively limit the rotation range of the lever 300. The rotation limiting device 400 includes the installation space 321, a driving member 410, an elastic member 420, and a cover member 430.

More specifically, the driving member 410 is installed in the installation space 321. In this case, the driving member 410 is installed to be movable with respect to the handle part 320 in the installation space 321. Substantially, while the driving member 410 is installed in the installation space 321, a part of the driving member 410 selectively protrudes to the outside of the installation space 321 through the entry/exit opening 323.

A second support protrusion 421 is provided at one side of the driving member 410 located inside the installation space 321. The second support protrusion 421 is positioned to face the first support protrusion 326 while the driving member 410 is installed in the installation space 321. The other end of the elastic member 420 is supported on the second support protrusion 421.

In addition, a stopping protrusion 413 is provided on the driving member 410. Substantially, the stopping protrusion 413 is a portion selectively in/out of the installation space 321 through the entry/exit opening 323. When the lever 300 is rotated while the stopping protrusion 413 protrudes to the outside of the installation space 321 through the entry/exit opening 323, the stopping protrusion 413 becomes the stopper It selectively takes on 150. Conversely, even if the lever 300 rotates in a state in which the stopping protrusion 413 is accommodated into the installation space 321 through the entry/exit opening 323, the stopping protrusion 413 is (150) will not be caught. In other words, it may be expressed that the stopper 150 is selectively positioned on the trajectory formed by the stopping protrusion 413 by the rotation of the lever 300.

In addition, an elastic portion 415 is provided on the driving member 410. The elastic portion 415 is formed to be elastically deformable with respect to the driving member 410. For example, the elastic part 415 may be elastically deformed in a direction substantially perpendicular to the moving direction of the driving member 410. 6 and 7, the elastic part 415 is shown to be formed in a U-shape with an approximately one end extending from the driving member 410 and the other end free end, but the elastic part 415 ) Is not limited thereto.

In addition, a driving protrusion 416 is provided on the elastic part 415. The driving protrusion 416 is located on one side spaced apart from the front end of the elastic part 415. The driving protrusion 416 is pressed by one side of the first housing 110 while being positioned on the first guide slot 324 to the outside of the first guide slot 324, that is, the installation It is removed into the interior of the space 321. In addition, the elastic portion 415 is elastically deformed by the removal of the driving protrusion 416. Substantially, the driving protrusion 416 is selectively positioned at both ends of the first guide slot 324 by moving along the first guide slot 324 in the process of loading and unloading the stopping protrusion 413.

In this embodiment, the driving protrusion 416 is provided with a first inclined guide surface 416A. The first inclined guide surface 416A is formed with one side of the first housing 110 and the driving protrusion 416 while the driving protrusion 416 is pressed by one side of the first housing 110. It serves to prevent the rotation interference of the lever 300 by the contact of. To this end, the first inclined guide surface 416A is, for example, in a direction in which the driving protrusion 416 is in contact with one side of the first housing 110, and one surface of the driving protrusion 416 is at a predetermined angle. It can be formed by being inclined to.

In addition, the elastic portion 415 is provided with a locking protrusion 417. The locking protrusion 417 is positioned adjacent to the free end of the elastic part 415 so as to be spaced apart from the driving protrusion 416. The locking protrusion 417 is selectively inserted into the locking hole 325 or the first guide slot 324 to move the driving member 410, that is, the stopping protrusion through the entry/exit opening 323 It serves to selectively limit the payment of (413). In other words, in a state in which the stopping protrusion 413 protrudes to the outside of the installation space 321 through the entry/exit opening 323, the locking protrusion 417 is inserted into the locking hole 325, A phenomenon in which the stopping protrusion 413 is arbitrarily received into the installation space 321 through the entry/exit opening 323 is prevented. And when the stopping protrusion 413 is accommodated in the installation space 321 through the entry/exit opening 323, the locking protrusion 417 is substantially above the first guide slot 324 By being positioned at one end of the first guide slot 324 adjacent to the locking hole 325, the stopping protrusion 413 arbitrarily protrudes to the outside of the installation space 321 through the entry and exit opening 323 Is prevented.

In this embodiment, the locking protrusion 417 is provided with a second inclined guide surface 417A. The second inclined guide surface 417A is formed by obliquely cutting a corner portion of the locking protrusion 417, and the locking hole 417 is positioned on the first guide slot 324 In the process of being removed from 325, it serves to prevent interference with the corner portion of the locking hole 325.

Further, the driving member 410 is provided with an operation protrusion 419. The manipulation protrusion 419 is provided on one surface of the driving member 410 corresponding to the opposite side of the locking protrusion 417 and the driving protrusion 416. The manipulation protrusion 419 is positioned on a second guide slot 435 to be described later. The manipulation protrusion 419 is a place where an operator manipulates the stopping protrusion 413 to accommodate the installation space 321. That is, when the operator moves the manipulation protrusion 419 using a hand or a separate tool, the driving member 410 moves and the stopping protrusion 413 is located inside the installation space 321 .

The elastic member 420 imparts an elastic force to the driving member 410 so that the stopping protrusion 413 protrudes to the outside of the installation space 321 through the entry/exit opening 323. That is, the driving member 410 is moved by the elastic force of the elastic member 420 so that the stopping protrusion 413 protrudes to the outside of the installation space 321 through the entry/exit opening 323. As the elastic member 420, a coil spring supporting both ends of the first and second support protrusions 421 may be used.

Meanwhile, the cover member 430 serves to shield the installation space 321. Since the cover member 430 substantially defines an inner surface of the installation space 321, the cover member 430 may be deleted according to the shape of the installation space 321.

In addition, a second guide slot 435 is formed in the cover member 430. The second guide slot 435 is formed by cutting a part of the cover member 430. The second guide slot 435 is a place where the manipulation protrusion 419 is positioned and slides along it. When the cover member 430 is deleted, the second guide slot 435 is located on one side of the installation space 321 corresponding to the opposite side of the first guide slot 324 and the locking hole 325. Will be formed.

Hereinafter, the operation of the embodiment of the connector assembly according to the present invention will be described in more detail with reference to the accompanying drawings.

9 to 15 are operational state diagrams showing a process in which the first and second connectors are separated in the embodiment of the connector assembly according to the present invention.

First, as shown in FIGS. 9 and 10, when the lever 300 is positioned in the locked position, the first and second connectors 100 and 200, substantially the first and second housings 110 and 210 You will be able to stay connected. At this time, the interlocking protrusion 240 is located at one end of the guide slot 315. In addition, by providing the elastic force of the elastic member 420 to the driving member 410, the stopping protrusion 413 protrudes to the outside of the installation space 321 through the entry/exit opening 323. In a state in which the stopping protrusion 413 protrudes to the outside of the installation space 321 through the entry/exit opening 323, the locking protrusion 417 is inserted into the locking hole 325, and the driving protrusion 416 Is located at one end of the first guide slot 324. In a state in which the stopping protrusion 413 protrudes to the outside of the installation space 321 through the entry/exit opening 323, the manipulation protrusion 419 is located at one end of the second guide slot 435.

In addition, when the lever 300 is positioned in the locked position, the first and second circuit contact portions 120 and 220 and the first and second power contact portions 130 and 230 remain in contact with each other. . Accordingly, a signal is transmitted through the first and second circuit contacts 120 and 220 and power is applied through the first and second power contacts 130 and 230.

In this state, in order to separate the first and second housings 110 and 210, as shown in FIG. 11, the lever 300 is rotated in a counterclockwise direction in the drawing with the rotation shaft 140 as the center. To make a meeting. In practical terms, the operator may rotate the lever 300 while holding the handle part 320.

However, when the lever 300 rotates, the driving member 410 and the stopping protrusion 413 are also rotated in the same direction as the lever 300 in connection therewith. And when the lever 300 continues to rotate, the stopping protrusion 413 is caught by the stopper 150. As described above, the stopping protrusion 413 is caught by the stopper 150, thereby limiting the rotation of the lever 300. That is, the lever 300 is limited in rotation by the rotation limiting device 400 and thus rotates only up to the first release position.

And as shown in FIG. 11, when the lever 300 is positioned in the first release position, the interlocking protrusion 240 is positioned at one end of the guide slot 315, the guide slot 315 Sliding along And the second housing 210 moves in the direction in which the first and second housings 110 and 210 are separated while the interlocking protrusion 240 slides along the guide slot 315. It is separated from the first housing 110.

In this way, when the second housing 210 is moved by a predetermined distance with respect to the first housing 110, as shown in FIG. 12, the first and second circuit contact portions 120 and 220 Separately, the first and second power contacts 130 and 230 maintain contact with each other. Therefore, the interlock circuit is cut off, but the power is maintained.

Next, in order to release the rotation limit of the rotation limiting device 400, as shown in FIG. 13, the manipulation protrusion 419 is moved along the second guide slot 435, and the manipulation protrusion 419 ) Is positioned from one end of the second guide slot 435 to the other end. At this time, the manipulation protrusion 419 may be moved using a worker's hand or a separate tool. Then, the driving member 410 is moved by the manipulation protrusion 419, so that the stopping protrusion 413 is accommodated into the installation space 321 through the entry/exit opening 323.

In addition, when the driving member 410 moves, the locking protrusion 417 is removed from the locking hole 325 and positioned on the first guide slot 324, and the driving protrusion 416 is the first It moves along the guide slot 324 and is located at the other end of the first guide slot 324. In this way, while the locking protrusion 417 is removed from the locking hole 325, interference with the corner of the locking hole 325 will be prevented by the second inclined guide surface 417A.

In addition, when the stopping protrusion 413 is received into the installation space 321 through the entry/exit opening 323, the stopping protrusion 413 is substantially spaced apart from the stopper 150. That is, it can be said that the stopper 150 is spaced apart from the rotational trajectory of the stopping protrusion 413. Accordingly, as shown in FIG. 14, the limit of the rotation range of the lever 300 by the rotation limiting device 400 is also released, that is, the rotation of the lever 300 is allowed, so that the lever 300 is removed. It is possible to rotate further from the first release position to the second release position.

However, when the lever 300 is positioned in the second release position, the interlocking protrusion 240 slides along the guide slot 315 and is positioned at the other end of the guide slot 315. Therefore, by sliding along the guide slot 315, the first and second housings 110 are as much as the distance moved by the interlocking protrusions 240 in the direction in which the first and second housings 110 and 210 are separated. (210) moves. That is, as shown in FIG. 15, the first and second housings 110 and 210 are separated to separate the first and second power contacts 130 and 230, thereby shutting off power. In such a state, the first and second housings 110 and 210 are completely removed by allowing the interlocking protrusion 240 to be removed to the outside of the guide slot 315 through the other end of the guide slot 315. Can be separated.

Therefore, in this embodiment, the distance between the first and second circuit contact portions 120 and 220 is substantially as long as the time required to move the driving member 410 by moving the manipulation protrusion 419, The first and second power contacts 130 and 230 are separated by a predetermined time interval. In particular, when the manipulation protrusion 419 is moved using a separate tool, the separation of the first and second circuit contact portions 120, 220, and the first and second power contact portions 130 The time between the separations of 230 may be relatively increased.

Meanwhile, the process of combining the first and second housings 110 and 210 is performed in the reverse order of the separation process of the first and second housings 110 and 210 described above. In particular, in this embodiment, in the process of rotating the lever 300 from the first release position to the locking position for the coupling of the first and second housings 110 and 210, the driving protrusion 416 is It is pressed by one side of the first housing 110. At this time, the driving protrusion 416 can be more easily pressed by one side of the first housing 110 by the first inclined guide surface 416A.

And the driving protrusion 416 pressed by one side of the first housing 110 is removed to the outside of the first guide slot 324 while being located inside the first guide slot 324. . In addition, the elastic portion 415 is elastically deformed by the removal of the driving protrusion 416, so that the locking protrusion 417 is also removed to the outside of the first guide slot 324.

However, the driving member 410 is provided with an elastic force of the elastic member 420 so that the stopping protrusion 413 protrudes to the outside of the installation space 321 through the entry/exit opening 323. Therefore, when the driving protrusion 416 and the locking protrusion 417 are removed from the first guide slot 324, the driving member 410 is moved by the elastic force of the elastic member 420 to move the stopping protrusion ( 413 protrudes to the outside of the installation space 321 through the entry/exit opening 323. In addition, by the movement of the driving member 410, the manipulation protrusion 419 may be moved along the second guide slot 435 to be positioned at one end of the second guide slot 435.

Within the scope of the basic technical idea of the present invention, many other modifications are possible for those of ordinary skill in the art, as well as the scope of the present invention should be interpreted based on the appended claims. .

100: first connector 110: first housing
120: first circuit contact 130: first power contact
140: rotation shaft 150: stopper
200: second connector 210: second housing
220: second circuit contact 230: second power contact
240: interlocking projection 300: lever
310: coupling portion 311: through hole
315: guide slot 320: handle portion
321: installation space 323: entry and exit opening
324: first guide slot 325: locking hole
326: first support protrusion 400: rotation limiting device
410: drive member 411: second support protrusion
413: stopping protrusion 415: elastic portion
416: driving protrusion 416A: first inclined guide surface
417: locking projection 417A: second inclined guide surface
419: operation protrusion 420: elastic member
430: cover member 435: second guide slot

Claims (18)

A first connector including a first housing provided with a stopper, and a first circuit contact portion and a first power contact portion installed in the first housing;
A second housing coupled to and separated from the first housing, and a second circuit contact unit that is installed in the second housing and selectively contacts the first circuit contact unit and the first power contact unit when the first and second housings are coupled And a second connector including a second power contact portion;
A lever that is rotatably coupled to the first housing and provides an external force to the second housing to separate the second housing from the first housing; And
A rotation limiting device installed on the lever and selectively restricting a rotation range of the lever by selectively engaging the stopper; Including,
When the lever is rotated to separate the first and second housings, the first and second circuit contacts are separated from each other, and then the first and second power contacts are separated,
When the rotation range of the lever is limited by the rotation limiting device, the first and second circuit contacts are separated from each other while the first and second power contacts are in contact while the first and second housings are separated. The lever rotates only up to the range to maintain
When the limit of the rotation range of the lever by the rotation limiting device is released, the first and second circuit contacts are separated from each other, and the first and second power contacts are in contact with each other. The lever rotates to a spaced range,
The rotation limiting device,
An installation space formed in the lever and having an entry/exit opening, a first guide slot, and a locking hole;
A driving member installed in the installation space and provided with a stopping protrusion selectively applied to the stopper by being in and out of the installation space through the entry/exit opening; And
An elastic member for imparting an elastic force to the driving member such that the stopping protrusion protrudes to the outside of the installation space; Including,
The installation space is formed in a polyhedral shape in which one surface thereof is opened,
The rotation limiting device further includes a cover member for shielding one surface of the installation space opened,
In the drive member,
A driving protrusion positioned on the first guide slot and moving along the first guide slot according to the putting in and out of the stopping protrusion;
A locking protrusion inserted into a locking hole formed on one surface of the installation space or positioned on the first guide slot according to the in/out of the stopping protrusion; And
A manipulation protrusion that is located on a second guide slot formed on the other surface of the installation space, and moves along the second guide slot by an operator to accommodate the stopping protrusion into the interior of the installation space through the entry/exit opening ; Is equipped,
When the operation protrusion is moved along the second guide slot to accommodate the stopping protrusion through the entry/exit opening into the installation space, the driving protrusion moves along the first guide slot, and the locking protrusion Is removed while being inserted into the locking hole and positioned on the first guide slot,
The locking protrusion is provided with a first inclined guide surface for preventing interference with the locking hole in the process of being removed from the locking hole,
The driving member includes the driving protrusion and the locking protrusion, and an elastic portion elastically deformable with respect to the driving member,
When the locking protrusion positioned on the first guide slot is pressed by one side of the first housing while the lever is rotated, the locking protrusion is removed from the first guide slot due to elastic deformation of the elastic part. ,
The driving protrusion is provided with a second inclined guide surface that prevents rotational interference of the lever by contact between one side of the first housing and the driving protrusion in a process of being pressed by one side of the first housing,
The elastic portion is bent in a U shape,
The locking protrusion and the driving protrusion are formed outside an end of the elastic part forming one, and the first inclined guide surface and the second inclined guide surface are formed to follow different directions.
delete delete delete delete delete delete A first connector including a first housing provided with a stopper, and a first circuit contact portion and a first power contact portion installed in the first housing;
A second housing coupled to and separated from the first housing, and a second circuit contact unit that is installed in the second housing and selectively contacts the first circuit contact unit and the first power contact unit when the first and second housings are coupled And a second connector including a second power contact portion;
A lever that is rotatably coupled to the first housing and provides an external force to the second housing to separate the second housing from the first housing; And
A rotation limiting device installed on the lever and selectively engaged with the stopper to selectively limit a rotation range of the lever; Including,
The lever is a locking position in which both the first and second circuit contact portions and the first and second power contact portions are in contact, the first and second circuit contact portions are spaced apart, and the first and second power contact portions are in contact. It is located at any one of a first release position, and a trajectory connecting the first and second circuit contact portions and the second release position where both the first and second power supply contacts are spaced apart,
When the lever rotates and is located in the first release position from the locking position, the rotation limiting device is caught by the stopper, thereby restricting the rotation of the lever,
The lever,
A pair of coupling portions rotatably coupled to the first housing; And
A handle part connecting the coupling part; Including,
In the coupling part,
Shaft through-holes through which a pair of rotation shafts provided in the first housing respectively pass through; And
A guide slot that slides while a pair of interlocking protrusions provided in the second housing pass through; Each of these is provided,
The guide slot, one end is located inside the coupling portion, the other end is communicated to the outside of the coupling portion,
The rotation limiting device,
An installation space formed in a polyhedral shape having an opening on one side of the handle portion, and including an entry/exit opening, a first guide slot, and a locking hole;
A driving member installed in the installation space and provided with a stopping protrusion, a driving protrusion, a locking protrusion, and a manipulation protrusion;
An elastic member imparting an elastic force to the driving member; And
A cover member shielding the opened surface of the installation space and having a second guide slot formed therein; Including,
The stopping protrusion is selectively engaged with the stopper by being in and out of the installation space through the entry and exit opening,
In the process of loading and unloading the stopping protrusion, the driving protrusion moves along the first guide slot, the locking protrusion is inserted into the locking hole or positioned on the first guide slot, and the manipulation protrusion is the second guide slot. Move along the guide slot,
When the operation protrusion moves along the second guide slot to accommodate the stopping protrusion into the installation space through the entry and exit opening, the driving protrusion moves along the first guide slot, and the locking protrusion Is removed from the locking hole in a state inserted into the locking hole and positioned on the first guide slot,
The locking protrusion is provided with a first inclined guide surface for preventing interference with an edge of the locking hole in the process of being removed from the locking hole,
When the driving protrusion is pressed by one side of the first housing to protrude the stopping protrusion to the outside of the installation space through the entry/exit opening, the locking protrusion is removed from the first guide slot and is inserted into the locking hole. Inserted, and the manipulation protrusion moves along the second guide slot,
The driving protrusion and the locking protrusion are provided on an elastic portion that elastically deforms with respect to the driving member,
When the driving protrusion is pressed by one side of the first housing, the elastic portion is elastically deformed so that the driving protrusion is removed from the first guide slot,
The driving protrusion is provided with a second inclined guide surface that prevents rotational interference of the lever by contact between one side of the first housing and the driving protrusion in a process of being pressed by one side of the first housing,
The elastic portion is bent in a U shape,
The locking protrusion and the driving protrusion are formed outside an end of the elastic part forming one, and the first inclined guide surface and the second inclined guide surface are formed to follow different directions.
delete delete delete delete delete delete delete delete delete A first connector;
A second connector coupled to the first connector to connect an interlock circuit and to apply power, and separate from the first connector to cut off an interlock circuit and power;
A lever that is rotatably installed on the first connector and provides a driving force for coupling and separating the first and second connectors to the second connector; And
It is installed to be movable on the lever, and in the process of coupling the first and second connectors, power is applied before the connection of the interlock circuit, and in the process of disconnecting the first and second connectors, the power is turned off after the interlock circuit is cut off. A rotation limiting device for limiting a rotation range of the lever so as to be blocked; Including,
Limiting and releasing the limit of the rotation range of the lever by the rotation limiting device is performed at predetermined time intervals,
The rotation limiting device,
An installation space formed in the lever and having an entry/exit opening, a first guide slot, and a locking hole;
A driving member installed in the installation space and provided with a stopping protrusion selectively applied to a stopper through the in/out opening in and out of the installation space; And
An elastic member for imparting an elastic force to the driving member such that the stopping protrusion protrudes to the outside of the installation space; Including,
The installation space is formed in a polyhedral shape in which one surface thereof is opened,
The rotation limiting device further includes a cover member for shielding one surface of the installation space opened,
In the drive member,
A driving protrusion positioned on the first guide slot and moving along the first guide slot according to the putting in and out of the stopping protrusion;
A locking protrusion inserted into a locking hole formed on one surface of the installation space or positioned on the first guide slot according to the in/out of the stopping protrusion; And
A manipulation protrusion that is located on a second guide slot formed on the other surface of the installation space, and moves along the second guide slot by an operator to accommodate the stopping protrusion into the interior of the installation space through the entry/exit opening ; Is equipped,
The driving protrusion and the locking protrusion are provided on an elastic portion that elastically deforms with respect to the driving member,
The elastic portion is bent in a U shape,
The locking protrusion and the driving protrusion are formed outside an end of the elastic part forming one, and the first inclined guide surface and the second inclined guide surface are formed to follow different directions.

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