KR20080109375A

KR20080109375A - Usb memory connecter

Info

Publication number: KR20080109375A
Application number: KR1020070057592A
Authority: KR
Inventors: 문성준
Original assignee: 현대자동차주식회사
Priority date: 2007-06-13
Filing date: 2007-06-13
Publication date: 2008-12-17

Abstract

A USB memory is provided to prevent damage of a terminal insertion hole and a terminal of the USB memory due to external impact or car vibration. A terminal(21) of a USB memory(20) is inserted. A terminal moving unit(30) includes an insertion hole into which the terminal of the USB memory is inserted. A rotor(50) is rotatably connected to an end of the terminal moving unit. A locking body(60) includes a hole into which another side of the rotor is inserted. An elastic member(70) is between the terminal moving unit and the locking body. A locking saw tooth(90) induces rotation of the rotor when an end of the rotor is separated from the locking body.

Description

USB memory connector {USB Memory Connecter}

1 is a perspective view showing a USB memory and a USB memory connector according to the prior art.

FIG. 2 is a perspective view in which the USB memory shown in FIG. 1 is fixed to a USB memory connector.

3 is a perspective view showing a USB memory and a USB memory connector according to the present invention.

4 is a perspective view in which the USB memory shown in FIG. 3 is fixed to a USB memory connector.

FIG. 5 is a diagram illustrating an internal configuration of the USB memory connector as seen in FIG.

FIG. 6 is a diagram illustrating an internal configuration of the USB memory connector seen in FIG. 4B.

7 is an operation explanatory diagram showing a process of fixing the terminal flow portion of the USB memory connector according to the present invention.

10: Center Face Panel 11: Fixed Guide Rail

20: USB memory 21: USB memory terminal

30: terminal flow part 50: rotor

51: rotor clip 60: body of the locking part

61: Locking groove 62: Unlocking groove

70: elastic member 80: USB fixing part

81: USB adhesion part 90: Locking tooth

91: Inclined surface of the locking teeth 92: Horizontal surface of the locking teeth

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a USB memory connector, and more particularly to a USB memory connector having a terminal flow portion, a rotor, a locking portion body, an elastic member, and a locking tooth.

1 is a perspective view showing a USB memory and a USB memory connector according to the prior art,

In general, the USB memory connector 1 is formed inside the front face panel 2a of the multimedia unit 2, and the terminal 3a of the USB memory 3 is directly connected to the front face panel 2a. Plug in and use.

However, in the conventional USB memory connector, only the terminal of the USB memory is inserted into the USB memory connector and the USB memory is fixed while protruding outside the front face panel. And there is a problem that the damage and contact failure of the terminal injection hole occurs.

The present invention has been made to solve the above problems of the prior art, and an object of the present invention is to provide a USB memory connector for preventing damage and contact failure of the terminal and the terminal injection port of the USB memory by external shock or vehicle vibration. .

The USB memory connector according to the present invention for solving the above problems is a USB memory connector in which the terminal of the USB memory is inserted, the terminal flow portion is formed with the injection hole is inserted into the terminal of the USB memory, and the terminal flow portion of the front end A rotor connected to one side to be rotatable, a locking part body having a hole into which the other side of the rotor is inserted, an elastic member positioned between the terminal flow part and the locking part body, and a front end of the rotor Characterized in that it consists of a locking teeth to induce rotation of the rotor when the locking part is separated from the body.

The elastic member is characterized in that the spring is through the rotor.

The inside of the USB memory connector is characterized in that the fixing part induction rail into which the USB fixing part is inserted is formed.

One end of the USB fixing part is fixed to the front end of the terminal flow part, and the other end is inserted into the fixing part induction rail.

The USB fixing unit is characterized in that the elastic body.

The USB fixing unit is characterized in that the USB adhesive portion for fixing the USB memory to the front end is inserted into the fixing unit guide rail.

The locking teeth are characterized in that the inclined surface and the horizontal surface is formed.

Locking grooves and rotor clips that are engaged with each other are formed at the front end of the locking unit body and the rotor, and the locking unit body further comprises an unlocking groove for guiding the rotor clip to the locking teeth. It is done.

The inclined surface of the locking teeth is located in front of the unlocking groove, the horizontal surface is characterized in that located in front of the locking groove.

The locking teeth, the locking groove, the unlocking groove and the rotor clip may be formed in plural numbers.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a perspective view showing a USB memory and a USB memory connector according to the present invention;

4 is a perspective view in which the USB memory shown in FIG. 3 is fixed to a USB memory connector;

FIG. 6 is a diagram illustrating an internal configuration of the USB memory connector as seen in FIG. 4B;

USB memory connector according to the invention is shown in Figures 3 to 7,

In the USB memory connector to which the terminal 21 of the USB memory 20 is inserted, a terminal flow part 30 having an injection hole into which the terminal 21 of the USB memory 20 is inserted, and the terminal flow part 30. Rotor 50, one end of which is inserted into the annular jaw formed in the terminal flow portion 30 to be rotatable, and a hole into which the other end of the rotor 50 is inserted. ), The elastic member 70 positioned between the terminal flow part 30 and the locking part body 60, and the tip of the rotor 50 is separated from the locking part body 60. It consists of a locking tooth 90 for inducing rotation of the rotor 50.

The elastic member 70 is a spring through which the rotor 50 passes. It will be described below by limiting the elastic member 70 to a spring.

A fixing part induction rail 11 into which the USB fixing part 80 is inserted is formed in the inside of the USB memory connector, and one end of the USB fixing part 80 is bound to the front end of the terminal flow part 30 and the other end thereof. Is inserted into the fixed part induction rail 11, and the USB fixed part 80 is formed of a sheet or a cord of an elastic body.

On the other hand, the USB fixing portion 80 is formed with a USB adhesive portion 81 for fixing the USB memory 20 to the front end is inserted into the fixing portion guide rail (11).

The locking teeth 90 are formed with an inclined surface 91 and a horizontal surface 92, and the locking groove 61 and the rotor engaged with each other at the distal ends of the locking body 60 and the rotor 50, respectively. The clip 51 is formed, and the locking part body further includes an unlocking groove for guiding the rotor clip to the locking teeth.

The inclined surface 91 of the locking teeth 90 is located in front of the unlocking groove, the horizontal surface 92 is located in front of the locking groove 61, and the locking teeth 90 and the locking groove 61 ), The unlocking groove 62 and the rotor clip 51 may be formed in plural.

Looking at the operation of the present invention configured as described above are as follows.

When the terminal 21 of the USB memory 20 is inserted into the USB memory inlet and the USB memory 20 is pushed, the terminal flow part 30 moves to the left in the drawing shown in FIG. ) And push out the USB fixing part 80 which is an elastic body.

The USB fixing part 80 is pushed out into the inside of the USB memory connector along the fixing part induction rail 11 and by using the elasticity of the USB adhesive part 81 bonded to the tip of the USB fixing part 80. As shown in FIG. 6, the USB memory 20 is fixed to prevent movement.

In order to maintain the fixed state of the USB memory 20, the terminal flow part 30 should also be fixed. A process of fixing the terminal flow part 30 will be described below.

When the inserted terminal flow portion 30 pushes the rotor 50 rotatably connected to one end of the annular jaw portion of the terminal flow portion 30, the rotor protrudes from the tip of the rotor 50. When the clip 51 moves along the unlocking groove 62 formed in the locking unit body 60 and moves the inclined groove 62a of the unlocking groove 62, as shown in FIG. The rotor clip 51 is released from the locking portion body 60 while rotating.

After the rotor clip 51 is separated from the locking part body 60, the rotor clip 51 rotates again while moving along the inclined surface 91 of the locking tooth 90.

When the rotor clip 51 is positioned on the horizontal surface 92 of the locking teeth 90, when the push operation of the USB memory 20 is released, the terminal flow part (by the restoring force of the spring 70) 30 is pushed and pulled the rotor 50 connected thereto in the direction of the USB memory inlet.

When the rotor 50 is pulled in the direction of the USB memory inlet, the rotor clip 51 moves along the horizontal surface 92 of the locking tooth 90 while the locking groove formed in the locking unit body 60 ( 61) and thus the terminal flow part 30 is fixed, and the USB memory 20 is also fixed with a part inserted into the USB memory connector.

On the other hand, once the USB memory 20 is pushed once again, the rotor clip 51 is released by the restoring force of the spring 70, the terminal flow portion 30 is returned to this position, thereby Accordingly, the USB memory 20 is also unlocked.

In the USB memory connector of the present invention configured as described above, a USB memory connector into which a terminal of a USB memory is inserted, the terminal flow part having an injection hole into which the terminal of the USB memory is inserted, and one side of which is rotated at the tip of the terminal flow part. A locking part body having a rotor connected to each other, a hole into which the other side of the rotor is inserted, an elastic member positioned between the terminal flow part, and the locking part body, and a tip of the rotor having the locking part body Consists of a locking tooth to induce the rotation of the rotor when it is separated from, there is an advantage that can prevent damage and contact failure of the terminal and the terminal injection port of the USB memory due to external shock or vehicle vibration.

In addition, the USB fixing portion is inserted into the fixing portion induction rail formed inside the USB memory connector, there is an advantage that can be more firmly fixed to the USB memory.

In addition, since the USB fixing part is made of an elastic body, by absorbing the vehicle vibration, the terminal of the USB memory can be prevented from falling in durability due to the vehicle vibration, and can be prevented from causing contact failure.

In addition, the USB memory connector can prevent the USB memory from being damaged from an external shock since a part of the USB memory is inserted.

Claims

In the USB memory connector to which the terminal of the USB memory is inserted,

A terminal flow part having an injection hole into which the terminal of the USB memory is inserted;

A rotor connected to one end of the terminal flow part so as to be rotatable;

A locking part body having a hole into which the other side of the rotor is inserted;

An elastic member positioned between the terminal flow part and the locking part body;

And a locking tooth for inducing rotation of the rotor when the front end of the rotor is separated from the locking body.

The method according to claim 1,

And the elastic member is a spring through which the rotor passes.

The method according to claim 1,

The inside of the USB memory connector is a USB memory connector, characterized in that the fixing part induction rail into which the USB fixing part is inserted.

The method according to claim 3,

The USB fixing unit is characterized in that one end is fixed to the front end of the terminal flow portion and the other end is inserted into the fixing unit guide rail.

The method according to claim 3,

And the USB fixing unit is an elastic body.

The method according to claim 3,

The USB fixing unit is a USB memory connector, characterized in that the USB adhesive portion for fixing the USB memory to the front end is inserted into the fixing unit guide rail.

The method according to claim 1,

The locking teeth are USB memory connector, characterized in that the inclined surface and the horizontal surface is formed.

The method according to claim 1,

Locking grooves and rotor clips which are engaged with each other are formed at the front end of the locking part body and the rotor, and the locking part body further includes an unlocking groove for guiding the rotor clip to the locking teeth. USB memory connector.

The method according to claim 7,

And the inclined surface of the locking teeth is located in front of the unlocking groove, and the horizontal surface is located in front of the locking groove.

The method according to claim 1 or 8,

And at least one of the locking teeth, the locking groove, the unlocking groove, and the rotor clip.