KR200467488Y1 - Lever type connector - Google Patents

Abstract

The present invention relates to a lever type connector. The present invention has a connector housing (30) having a moving space (33) formed therein, a slider 40 for linear reciprocating motion along the moving space (33), and a linear movement of the slider (40) through rotation. Lever 60. In addition, the lever 60 is provided with an auxiliary hooking jaw 67, and the slider 40 is provided with a latching jaw 48 corresponding thereto, and in the process of rotating the lever 60 from an initial position. Hanging jaw 67 is to push the locking jaw (48). According to the present invention as described above, the rotational force applied to the gear parts 45 and 66 of the lever 60 and the slider 40 by the auxiliary hook jaw 67 and the locking jaw 48 during the rotation of the lever 60. This can be dispersed, there is an advantage that the rotational force for rotating the lever 60 is reduced.

Lever Type Connector, Slider, Reinforcement Rib

Description

Lever type connector

The present invention relates to a connector, and more particularly to a lever type connector for coupling between two connectors using a lever.

In general, a connector assembly is a pair of connectors are coupled to each other to perform the electrical connection of the terminal installed inside each. As the number of terminals installed in the connector increases, the amount of force required to perform the coupling between the connectors also increases. Therefore, a lever type connector in which connectors are coupled on the principle of lever using a lever is used for a connector in which a plurality of terminals are installed.

Figure 1 is a side view of the configuration of a general lever type connector.

As shown in the drawing, the slider 2 is provided in the connector housing 1 so as to be accessible. The slider 2 serves to pull the mating connector (not shown) in the direction of the connector housing 1 while linearly reciprocating along the inside of the connector housing 1.

More precisely, the slider 2 is formed with a guide channel 3. When the slider 2 linearly moves to the left with reference to the drawings, the guide boss of the mating connector moves along the guide channel 3. The entire mating connector is pulled upward based on the drawing.

The connector housing 1 is provided with a connector cover 5, and the lever cover 7 is rotatably coupled to the connector cover 5. The lever 7 serves to linearly move the slider 2 through a rotational movement.

That is, the slider 2 and the lever 7 are provided with gear parts 4 and 8 corresponding to each other, and these gear parts 4 and 8 are composed of racks and pinions, respectively, and the rotation of the lever 7 is performed. The motion is changed to the linear motion of the slider 2.

Briefly referring to the operation of the lever 7 type connector, first, when the lever 7 is rotated in the direction of arrow ①, the gear portion 8 of the lever 7 is rotated in the direction of arrow ②, and the lever ( The slider 2 is linearly moved in the direction of the arrow 3 by the gear 4 of the slider 2 engaged with the gear 8 of 7).

Accordingly, the guide boss of the mating connector inserted into the guide channel 3 of the slider 2 moves along the guide channel 3, and as a result, the mating connector is pulled in the direction of the connector housing 1. You lose.

However, the prior art as described above has the following problems.

When the worker rotates the lever 3, the rotational movement of the lever 3 is changed to the linear movement of the slider 2. At this time, looking at the change in the force for rotating the lever 3, it can be seen that the initial force to rotate the lever 3 is the largest. This is because forcing the lever 3 to move in the stopped state is greater than the force for moving further in the already rotating state.

In particular, when the height of the gear teeth of the gear portion 8 of the lever 3 is increased, and the pitch of the gear is increased, the initial force for rotating the lever 3 becomes larger, and the assembling work between the connectors is made. There is a problem of poor sex.

If excessive force is initially applied to rotate the lever 3, the burden on the gear 8 of the lever 3 may increase, and the gear 8 may be damaged.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and to reduce the initial force for rotating the lever of the lever-type connector.

Another object of the present invention is to prevent the gear portion of the lever from being damaged in the process of rotating the lever of the lever-type connector.

According to a feature of the present invention for achieving the object as described above, the present invention is a lever type connector that is coupled to the mating connector through the rotation of the lever, the connector housing and the moving space is formed therein, the moving space And a lever having a linear reciprocating movement and a slider having a first gear portion, and a lever having a second gear portion assembled to the connector housing to be rotatable and corresponding to the first gear portion, wherein the second gear of the lever is provided. An auxiliary hanger jaw protrudes on one side of the part, and a hooking jaw corresponding to the auxiliary hanger jaw is provided on one side of the first gear part of the slider to engage with each other at an initial position at which the lever starts to rotate.

The lever is provided with a rotating part in which a rotating hole into which the rotating shaft of the connector housing is inserted is formed at the center thereof, the outer circumferential surface of the rotating part is provided with the second gear part, and the outer surface of the rotating part is rotated more than the second gear part. Auxiliary hanger jaw protrudes closer to the hole.

The lever includes a pair of rotating plates provided at one end thereof with a rotating hole corresponding to a rotating shaft of the connector housing and an outer circumferential surface of the connector housing, and a connecting plate connecting the rotating plates. do.

An escape groove is formed at one side of the engaging jaw provided in the slider to prevent interference with the auxiliary hanging jaw engaged with the engaging jaw.

The auxiliary hanger jaw is provided with an operating surface for contacting and pressing the engaging jaw, and a curved surface connected to the operating surface and corresponding to the escape groove of the slider.

According to the lever type connector according to the present invention can be expected the following effects.

In the present invention, the auxiliary hooking jaw is provided on the lever for coupling the mating connector by moving the slider through the rotation, and the latching jaw of the slider is pushed and pushed in the process of rotating the lever from the initial position. Rotation force applied to the provided gear portion may be distributed to the auxiliary hook jaw and the locking jaw side. Accordingly, damage to the gear part of the lever or the gear part of the slider can be prevented, thereby improving the durability of the lever type connector.

In the present invention, since the auxiliary hooking jaw provided in the lever is provided at a position closer to the center of rotation of the lever than the gear portion, the rotational force for rotating the lever is reduced, thereby improving the assembly workability of the lever type connector. .

Hereinafter, a preferred embodiment of a lever type connector according to the present invention will be described in detail with reference to the accompanying drawings.

For convenience of description, the relative connector 10 will be described first, and the skeleton of the mating connector 10 is formed by the mating housing 11, and the inner space 11 ′ is formed inside the mating housing 11. do.

Guide bosses 15 are provided on the outer surface of the mating housing 11. The guide boss 15 is guided along the guide channel 46 of the slider 40 to be described below, so that the mating connector 10 is pulled in the direction of the lever type connector 20.

Next, the lever type connector 20 (hereinafter referred to as a "connector") will be described. The connector 20 is largely connected to the connector housing 30, the slider 40, the connector cover 50, and the lever 60. ), Which will be described in turn.

The skeleton of the connector housing 30 is formed by the housing body 31. The housing body 31 has a substantially hexahedron shape as shown, and a terminal (not shown) is accommodated therein.

A moving space 33 is formed inside the housing body 31. The moving space 33 is a kind of passage through which the slider 40, more precisely, the guide part 41 of the slider 40 to be described below, is moved, and is formed to open at both sides. In this embodiment, the moving space 33 is provided in pairs on both sides of the housing body 31.

An inner surface of the moving space 33 is provided with a reinforcing rib 34. The reinforcing rib 34 extends along the moving direction of the slider 40 on the inner surface of the moving space 33 and corresponds to the reinforcing channel 42 of the slider 40 to be described later.

At this time, as shown in Figure 1, the housing body 31, the escape slot (S) is formed. The escape slot S allows at least a part of the moving space 33 to communicate with the outside in a direction orthogonal to the moving direction of the slider 40. This is because the rotation plate 61 of the lever 60 is inserted through the escape slot S, so that the first gear portion 45 of the slider 40 and the second gear portion of the lever 60 will be described below. 66 is to be engaged in the moving space (33).

Next, the slider 40 will be described. The slider 40 is pulled into and out of the moving space 33 of the connector housing 30 to pull the mating connector 10 in the direction of the connector housing 30. Play a role. The slider 40 is largely composed of a pair of guide portions 41 and a connecting portion 43 connecting them.

The guide portion 41 has a substantially bar shape as shown, and is a portion inserted into the moving space 33 substantially. The outer surface of the guide portion 41 is provided with a reinforcing channel 42. The reinforcing channel 42 is a portion into which the reinforcing rib 34 formed on the inner surface of the moving space 33 is inserted, and is joined to the reinforcing rib 34.

The guide part 41 is provided with a first gear part 45. The first gear part 45 is formed on the same surface as the reinforcement channel 42, and extends in a direction parallel to the reinforcement channel 42. The first gear portion 45 meshes with the second gear portion 66 of the lever 60 to be described below, and serves to convert the rotational movement of the lever 60 into a linear movement of the slider 40. In the present embodiment, the first gear part 45 and the second gear part 66 are composed of a rack and a pinion.

Guide channels 46 are formed on the outer surface of the guide part 41. The guide channel 46 is formed on the opposite side of the surface on which the reinforcing channel 42 is formed, and serves to guide the guide boss 15 of the mating connector 10. That is, the guide boss 15 inserted through the inlet 46 'of the guide channel 46 is further inserted into the guide channel 46 as the slider 40 is moved, so that the relative The connector 10 is pulled toward the connector housing 30.

The guide part 41 is provided with a locking jaw 48. The locking jaw 48 is provided to protrude at the tip of the guide portion 41, and is a portion engaged with the auxiliary hook jaw 67 of the lever 60 to be described below. That is, the locking jaw 48 is engaged with the auxiliary hook jaw 67 of the lever 60, and the force applied to the first and second gear parts 45 and 66 at the initial stage when the lever 60 is rotated. To be distributed.

An escape groove 48 'is formed at one side of the locking jaw 48. The escape groove 48 ′ is a portion for preventing the guide hanger 41 of the lever 60 from interfering with the guide part 41 while being rotated. As illustrated, the guide part 41 is shown. The upper surface of is partially formed.

The connector cover 50 is coupled to the connector housing 30. The connector cover 50 is coupled to the connector housing 30 to guide the extension direction of the wire (not shown) connected to the terminal and serves to protect the connector housing 30.

A rotating shaft 55 is provided on an outer surface of the body 51 of the connector cover 50. The rotation shaft 55 is a portion that becomes the rotation center of the lever 60. Of course, the connector cover 50 may be omitted, and the lever 60 may be directly rotatably coupled to the connector housing 30.

The lever 60 is coupled to the connector cover 50. The lever 60 is rotatably assembled to the connector cover 50 to linearly reciprocate the slider 40 through rotation.

More precisely, the lever 60 is composed of a pair of rotating plate 61 and a connecting plate 62 connecting the rotating plate 61. A rotating hole is formed in the rotating plate 61 to be inserted into the rotating shaft 55 of the connector cover 50 so that the rotating plate 61 is rotatable.

The second gear portion 66 is provided on the outer circumferential surface of the rotating portion 63 of the rotating plate 61. The second gear portion 66 corresponds to the first gear portion 45 of the slider 40, and serves to change the rotation of the lever 60 to a linear movement of the slider 40. Unexplained reference numeral 65 denotes a rotation hole inserted into the rotation shaft 55.

On the other hand, as shown in Figure 3, the outer hanger jaw 67 is provided on the outer surface of the rotating part (63). The auxiliary hanging jaw 67 protrudes from the outer surface of the rotating part 63, and engages with the locking jaw 48 of the slider 40 to push the locking jaw 48 at an initial stage for rotating the lever 60. Play a role. That is, the auxiliary hook jaw 67 serves to partially distribute the initial rotational force applied to the first gear part 45 and the second gear part 66 by pushing the locking jaw 48.

At this time, the auxiliary hanger jaw 67 is provided at a position adjacent to the rotation hole (65). More precisely, the auxiliary hanger jaw 67 is provided at a position closer to the rotation hole 65 than the second gear portion 66. This is to reduce the initial rotational force for rotating the lever 60.

That is, the rotation plate 61 of the lever 60 is a kind of lever, and one end of the lever 60 (one end of the rotation plate 61 connected to the connection plate 62) as the support point of the rotation shaft 55. With this force point, the auxiliary hanger jaw 67 can be seen as a working point. Therefore, as the distance of the auxiliary hanger jaw 67 from the rotation hole 65 corresponding to the rotation shaft 55 is shorter, the rotational force acting on the force point of the lever 60 can be reduced.

As shown in FIG. 3, one end of the auxiliary hooking jaw 67 is provided with an operating surface 67a that substantially contacts the locking jaw 48 and pushes the locking jaw 48 from one end of the operating surface 67a. A curved surface 67b connected to and guided along the escape groove 48 'is provided.

Hereinafter will be described the action of the lever-type connector according to the present invention as described above.

First, the assembly process of the connector 20 will be described briefly, and the guide part 41 of the slider 40 is inserted into the moving space 33 of the connector housing 30. In this case, the slider 40 is inserted while the reinforcing rib 34 formed on the inner surface of the moving space 33 is inserted into the reinforcing channel 42 of the guide part 41.

In addition, the connector cover 50, in which the lever 60 is rotatably assembled, is assembled to the connector housing 30. At this time, the connector housing 30 has a terminal before assembling the connector cover 50. It must be inserted.

 Next, looking at the operation of the connector 20, the operator must first rotate the lever (60). That is, when the connecting plate 62 of the lever 60 is gripped and rotated, the lever 60 is rotated.

At this time, as shown in Figure 4a, the lever 60 is in the initial position, the secondary engaging jaw 67 of the lever 60 is engaged with the engaging jaw 48 of the slider 40. That is, the operating surface 67a of the auxiliary hook jaw 67 comes into contact with the catching jaw 48. In this state, when the lever 60 is rotated, the first gear part 45 and the second gear part 66 are engaged with each other to rotate, as well as the auxiliary hanger jaw 67 is caught. Since the jaw 48 is pushed, the rotational force concentrated on the first and second gear parts 45 and 66 can be dispersed.

And, since the auxiliary hook jaw 67 is provided at a position close to the rotation hole 65, the force for the operator to rotate the lever 60 can be relatively reduced.

When the lever 60 is rotated, the auxiliary hook jaw 67 pushes the catching jaw 48 and moves along the escape groove 48 'of the slider 40 to interfere with the slider 40. This can be prevented.

When the lever 60 is continuously rotated, the auxiliary hanger jaw 67 ends the operation of pushing the catching jaw 48 and completely escapes from the escape groove 48 'of the slider 40, and the second Only the gear 66 is engaged with the first gear 45 to operate.

Accordingly, the slider 40 continues to linearly move in conjunction with the rotation of the lever 60. That is, since the second gear portion 66 of the lever 60 and the first gear portion 45 of the slider 40 are engaged with each other, the second gear portion 66 and the first gear portion 45 are engaged with each other. The rotational movement of the lever 60 is changed to the linear movement of the slider 40 by the interlocking of ().

On the other hand, as the slider 40 is linearly linked with the lever 60, the guide boss 15 of the mating connector 10 inserted into the guide channel 46 of the slider 40 is the guide channel ( While moving along 46, the mating connector 10 is pulled toward the connector housing 30. Accordingly, the connector 20 and the mating connector 10 are completely coupled to each other.

The scope of the present invention is not limited to the embodiments described above, but is defined by the claims, and those skilled in the art will be able to make various changes and modifications within the scope of the claims It is self-evident.

Figure 1 is a side view showing the configuration of a typical lever type connector.

Figure 2 is an exploded perspective view showing the configuration of a preferred embodiment of a lever type connector according to the present invention.

Figure 3 is a perspective view showing the required configuration of the lever constituting the embodiment of the present invention.

4a and 4b is an operational state diagram showing the operation process of the embodiment of the present invention sequentially.

Explanation of symbols on the main parts of the drawings

10: mating connector 20: lever type connector

30: connector housing 31: housing body

33: moving space 34: reinforcing rib

S: escape slot 40: slider

41: guide portion 42: reinforcing channel

43: connecting portion 45: first gear

46: guide channel 48: locking jaw

48 ': escape groove 50: connector cover

55: rotation axis 60: lever

61: rotating plate 63: rotating part

65: rotation hole 66: second gear

67: auxiliary hanger jaw

Claims (5)

In the lever type connector that is coupled to the mating connector through the rotation of the lever, A connector housing having a moving space formed therein, A linear reciprocating motion along the moving space and provided with a first gear part; A lever rotatably assembled to the connector housing and provided with a second gear part corresponding to the first gear part; An auxiliary hook jaw protrudes from one side of the second gear part of the lever, and a hook jaw corresponding to the auxiliary hook jaw is provided on one side of the first gear part of the slider, so that the lever starts to rotate. Lever type connector characterized by engagement. According to claim 1, wherein the lever is provided with a rotating portion formed in the center of the rotary hole is inserted into the rotary shaft of the connector housing, the outer peripheral surface of the rotating portion is provided with the second gear portion, the outer surface of the rotating portion A lever-type connector, characterized in that the auxiliary hook projection protrudes in a position closer to the rotation hole than the two gear portion. The method of claim 1, wherein the lever is A pair of rotating plates having a rotating hole corresponding to the rotating shaft of the connector housing and a rotating portion provided with the second gear portion at one end thereof; Lever type connector characterized in that it comprises a connecting plate for connecting between the rotating plate. 4. The lever type connector according to claim 3, wherein an escape groove is formed at one side of the latching jaw provided in the slider to prevent interference with the auxiliary hooking jaw engaged with the locking jaw. The lever type connector according to claim 4, wherein the auxiliary hooking jaw is provided with an operating surface for contacting and pressing the latching jaw, and a curved surface connected to the operating surface and corresponding to the escape groove of the slider.

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