KR101142364B1 - Tilt up module for Portable Terminal - Google Patents

Abstract

The present invention is to provide a tilt-up module for a portable terminal having a locking member for preventing the rotation of the angle adjustment member to prevent the generation of noise and vibration during the movement of the slider and to improve the quality of the portable terminal.
A tilt up module for a portable terminal of the present invention includes: a fixing member mounted to the portable terminal main body; An angle adjusting member whose one end is rotatably coupled to one end of the fixing member; A slider coupled to a mobile terminal moving body which opens and closes an upper portion of the mobile terminal basic body, and is mounted to slide on the upper portion of the angle adjusting member; A locking member disposed below the angle adjusting member and coupled to the other end of the fixing member to prevent rotation of the angle adjusting member; It is made, including, the angle adjustment member is formed in the through hole of the long long hole shape in the direction of movement of the slider, the locking member is formed through the upper through the through hole in the locking projection is formed on the top of the angle adjustment member When the mobile terminal mobile body slides in one direction together with the slider to open the upper portion of the mobile terminal basic body, the locking protrusion contacts the slider and rotates the locking member in the direction of movement of the slider. To release the jersey.

Description

Tilt up module for portable terminal

The present invention relates to a tilt up module for a portable terminal, and more particularly, to a tilt up module for a portable terminal for slidably and tiltably coupling the portable terminal mobile body to the portable terminal main body.

Recently, portable terminals have been widely used as conveniences that anyone can easily carry and use freely anywhere.

Such portable terminals are generally classified into bar-type portable terminals, flip-type portable terminals, folder-type portable terminals, and slide-type sliding terminals according to their appearance and operation method. Can be.

Among these, the slide type portable terminal refers to a portable terminal in which a slide portion disposed to overlap each other with the main body portion is slidably opened and closed with respect to the main body portion.

For example, a typical slide-type portable terminal includes a main body and a terminal main body including a slide part disposed to overlap the main body part, and a slide module connecting the main body part and the slide part so that the slide part can slide relative to the main body part. Can be.

On the other hand, recently, a slide type portable terminal has been proposed in which the slide part is slid open along the width direction of the main body part so as to satisfy rapidly changing consumer needs, and then the predetermined angle roll can be tilted with respect to the main body part. .

1 is a side view showing a tilting state of the conventional tiltable slide-type portable terminal, and the tiltable slide-type portable terminal is shown in detail in Korean Patent Laid-Open Publication No. 10-2010-0054430.

As shown in FIG. 1, the conventional tiltable slide-type portable terminal can be slidably moved on the tilting frame 31 and the tilting press 31 which are tiltably coupled around one end of the main body 10. It is provided to be made of a slide unit 20 to slide with respect to the main body portion 10.

After the slide opening is completed, the slide unit 20 is tilted with respect to the main body unit 10 together with the tilting frame 31.

The conventional tiltable slide-type portable terminal does not have a separate member for restraining the rotation of the tilting frame 31 in a state before the slide opening of the slide portion 20, and the slide portion 20 and the main body portion ( 10) constrains the tilting of the tilting frame 31 by the interference therebetween.

However, if the tilting of the tilting frame 31 is restrained by the interference between the slide unit 20 and the main body unit 10, the slide unit 20 and the main body unit (a) when the slide unit 20 moves. Noise is generated by the friction between 10), shaking or vibration occurs in the slide unit 20, and the quality of the portable terminal is deteriorated.

The present invention is to solve the above problems, provided with a locking member for preventing the rotation of the angle adjustment member tilt up module for a mobile terminal that can prevent the generation of noise and vibration when moving the slider and improve the quality of the mobile terminal The purpose is to provide.

In order to achieve the above object, the tilt-up module for a portable terminal of the present invention includes: a fixing member mounted to the portable terminal basic body; An angle adjusting member whose one end is rotatably coupled to one end of the fixing member; A slider coupled to a mobile terminal moving body which opens and closes an upper portion of the mobile terminal basic body, and is mounted to slide on the upper portion of the angle adjusting member; A locking member disposed below the angle adjusting member and coupled to the other end of the fixing member to prevent rotation of the angle adjusting member; It is made, including, the angle adjustment member is formed in the through hole of the long long hole shape in the direction of movement of the slider, the locking member is formed through the upper through the through hole in the locking projection is formed on the top of the angle adjustment member When the mobile terminal mobile body slides in one direction together with the slider to open the upper portion of the mobile terminal basic body, the locking protrusion contacts the slider and rotates the locking member in the direction of movement of the slider. To release the jersey.

A first hook portion is formed below the angle adjusting member, and the locking member has a second hook portion hooked to the first hook portion to prevent rotation of the angle adjusting member, and the locking member by the slider. When the rotation of the second hook portion is separated from the first hook portion to release the rotation stop of the angle adjusting member.

A first elastic member mounted to the fixing member and configured to add rotational force to the locking member in a direction of preventing rotation of the angle adjusting member; It further comprises, but the first elastic member leads to a torsion spring.

A stopper is formed at one end of the fixing member or at one end of the angle adjusting member, and at one end of the fixing member or at one end of the angle adjusting member, the stopper slides in the direction of the stopping groove. Second elastic members are respectively provided to elastically support the stopper in the direction of the stop groove, and one end of the stopper is selectively inserted into the stop groove by rotation of the angle adjusting member to stop the rotation of the angle adjusting member. Let's do it.

A third elastic member mounted to the fixing member to add rotational force to the angle adjusting member such that the angle adjusting member is inclined forward of the fixing member; It further comprises, but the third elastic member is made of a torsion spring.

As described above, the tilt up module for the portable terminal of the present invention has the following effects.

The locking member prevents the rotation of the angle adjusting member, and rotates by the movement of the slider to release the rotation stop of the angle adjusting member, thereby preventing the occurrence of noise and vibration during sliding of the slider, thereby improving the overall quality of the mobile terminal. Has the effect of improving.

The locking projection penetrates the through hole and is disposed above the angle adjusting member so that the locking protrusion does not protrude to the rear of the mobile terminal mobile body when the locking protrusion contacts the slider and rotates in the direction of movement of the slider. Is disposed between the fixing member has the effect that can effectively utilize the space.

The second hook portion is coupled to the first hook portion to prevent rotation of the angle adjusting member, thereby preventing the angle adjustment member from being randomly rotated by an external impact, and improves the rotation stopping force of the angle adjusting member. There is.

The first elastic member is formed of a torsion spring to add rotational force to the locking member in a direction of preventing rotation of the angle adjusting member, so that the second hook portion is in close contact with the first hook portion and the first hook portion and the There is an effect of improving the bonding force of the second hook portion.

The stopper is selectively inserted into the stop groove by the rotation of the angle adjusting member, so that the mobile terminal moving body can be stopped by rotating at various angles with respect to the mobile terminal basic body, thereby providing various angles desired by the user. It works.

The third elastic member is made of a torsion spring, by adding a rotational force to the angle adjusting member to be inclined forward of the fixing member, the rotation stop of the angle adjusting member is released and at the same time the angle adjusting member is automatically rotated by a certain angle Sliding and tilting operations can be carried out non-stop, which reduces the operating time of the tilt up module.

1 is a side view showing a tilting state of a conventional tiltable slide type portable terminal,
2 is a perspective view of a tilt up module for a portable terminal according to an embodiment of the present invention;
3 is an exploded perspective view of one direction of a tilt-up module for a portable terminal according to an embodiment of the present invention;
4 is an exploded perspective view of another direction of the tilt-up module for a portable terminal according to an embodiment of the present invention;
5 is an exploded perspective view of a main part of a tilt-up module for a portable terminal according to an embodiment of the present invention;
6 is an exploded perspective view of a main part of a tilt up module for a portable terminal according to an embodiment of the present invention;
7 to 10 are diagrams showing the operation of the tilt-up module for a mobile terminal according to an embodiment of the present invention.

2 is a perspective view of a tilt-up module for a portable terminal according to an embodiment of the present invention, Figure 3 is a one-way exploded perspective view of a tilt-up module for a portable terminal according to an embodiment of the present invention, Figure 4 is an embodiment of the present invention. 5 is an exploded perspective view of another part of the tilt-up module for a portable terminal, FIG. 5 is an exploded perspective view of a main part of the tilt-up module for a portable terminal according to an embodiment of the present invention, and FIG. 6 is a tilt-up for a portable terminal according to an embodiment of the present invention. Main parts of the module in another direction exploded perspective view, Figure 7 to Figure 10 is a view of the operation of the tilt up module for a portable terminal according to an embodiment of the present invention.

As shown in Figure 2 to 10, the tilt up module for a mobile terminal according to an embodiment of the present invention is fixed member 100, angle adjustment member 200, slider 300, locking member 400, the first It includes an elastic member 460, the stopper 510, the second elastic member 520 and the third elastic member 240.

The fixing member 100 is composed of two and mounted to the left and right spaced apart on the upper portion of the mobile terminal basic body 51, specifically, consisting of the side portion 110 and the central portion (120).

The portable terminal basic body 51 is formed in a rectangular shape long in the left and right direction, and an operation button such as a keypad is provided on the top thereof.

The side parts 110 are formed to be wide in the opposite direction, are spaced apart from each other in the left and right directions, and are integrally connected to each other by the central part 120.

The central part 120 is integrally formed between the side parts 110, and the mounting groove 121 is opened forward.

The mounting groove 121 is formed in a circular shape, and the stopper 510 is inserted into the slide so as to be slidably moved as described below.

In addition, a first space portion 130 is formed between the side portion 110 at one end of the side portion 110, that is, in front of the central portion 120.

The first space 130 is in communication with the mounting groove 121, one end of the angle adjusting member 200 is inserted into the arrangement as will be described later.

In addition, a second space portion 140 is formed between the side portion 110 at the other end of the side portion 110, that is, at the rear of the central portion 120.

As described later, the second space portion 140 is inserted into the first hook portion 213 of the angle adjusting member 200.

The angle adjusting member 200 is coupled to one end is rotated to one end of the fixing member (100).

Specifically, the angle adjusting member 200 is composed of a rotating member 210 and the guide member 220.

The rotating member 210 is formed in a long rectangular shape in the front and rear direction, consisting of two are spaced apart left and right, one is mounted to the fixing member 100.

In addition, one end of the rotating member 210 has a hinge portion 211 is inserted into the first space portion 130 is formed.

The hinge portion 211 is formed in an arc shape, the stop groove 212 is formed on the outer peripheral surface in the downward direction.

The stop groove 212 is formed in a circular shape, is in communication with the mounting groove 121, the depth is formed smaller than the diameter of the stopper 510 as described later.

The stop grooves 212 are arranged along the outer circumferential surface of the hinge portion 211, and selectively communicate with the mounting groove 121 in accordance with the rotation of the angle adjustment member (200).

In addition, the hinge portion 211 is rotatably coupled to the side portion 110 by a first rotation shaft 230.

The first rotation shaft 230 is formed in a long cylindrical shape in the left and right direction, penetrates the one end and the hinge portion 211 of the side portion 110 to the angle adjusting member 200 to the fixing member 100 Combine to rotate.

The other end of the rotating member 210 has a first hook portion 213 is formed.

The first hook portion 213 is formed to protrude downwardly under the other end of the angle adjustment member 200, the end is formed to be bent in the rotation direction of the rotating member 210, the second space portion ( 140 is inserted and placed.

The first hook portion 213 is hooked with the second hook portion 420 of the locking member 400 as described below.

The guide member 220 is formed in a long rectangular shape in the left and right directions, consisting of one is mounted on the two rotating members 210, respectively.

In addition, the left and right ends of the guide member 220 is formed with a guide portion 221 open in a direction facing each other.

The slider 300 is slidably mounted in the front-rear direction as described below between the guide parts 221.

In addition, the guide member 220 is formed with a through-hole 222 having a long hole shape in the moving direction, that is, the front and rear direction of the slider 300.

The through holes 222 are formed to be open upward and downward to communicate with the second space 140, and are spaced apart from each other in the left and right directions about the rotating member 210.

The through hole 222 is inserted into the engaging projection 410 of the locking member 400 as will be described later.

On the other hand, the slider 300 is coupled to the mobile terminal mobile body 52 that opens and closes the top of the mobile terminal, and is mounted to slide on the top of the angle adjustment member 200.

The mobile terminal mobile body 52 is disposed in parallel to the upper portion of the mobile terminal basic body 51, and an image display unit such as an LCD liquid crystal is installed on the upper side.

The slider 300 is inserted between the guide parts 221 of the guide member 220 in a rectangular shape and slides forward and backward along the guide part 221.

In addition, a spring module 350 is mounted between the slider 300 and the guide member 220.

The spring module 350 is formed of a torsion spring, one end of which is mounted to the slider 300, and the other end of which is mounted to the guide member 220.

The spring module 350 is compressed when the slider 300 moves, and when the slider 300 passes the maximum compression point of the spring module 350, the spring module 350 expands by an elastic restoring force to automatically expand the slider 300. Let it slide

In addition, a contact member 310 is mounted below the slider 300.

The contact member 310 is mounted on the lower side of the slider 300 so as to be spaced left and right, and protrudes downward.

The contact member 310 is in contact with the locking projection 410 of the locking member 400 as described below to rotate the locking member 400 in the moving direction of the slider 300.

The locking member 400 is disposed below the angle adjusting member 200 and coupled to the other end of the fixing member 100 to prevent rotation of the angle adjusting member 200.

In more detail, the locking member 400 is disposed below the angle adjusting member 200, and a lower end of the locking member 400 is inserted into the second space part 140 so that the side part 110 is formed by the second rotation shaft 450. It is coupled to rotate on the other end.

The second rotating shaft 450 is formed in a long cylindrical shape in the left and right direction, and rotates the locking member 400 to the fixing member 100 by penetrating the lower end of the side portion 110 and the locking member 400. Combine as much as possible.

In addition, a locking protrusion 410 is formed at the upper end of the locking member 400.

The locking protrusions 410 are respectively spaced apart from each other, protrude upward, and are disposed on the angle adjusting member 200 through the through holes 222.

The locking projection 410 is in contact with the slider 300 when the mobile terminal mobile body 52 slides in one direction with the slider 300 to open the upper portion of the mobile terminal basic body 51. The rotation stop of the angle adjusting member 200 is released while rotating the locking member 400 in the moving direction of the slider 300.

As such, the locking protrusion 410 penetrates the through-hole 222 and is disposed above the angle adjusting member 200, such that the locking protrusion 410 is in contact with the slider 300 so as to contact the slider 300. When rotating in the moving direction of the mobile terminal 52 is disposed between the angle adjusting member 200 and the fixed member 100 without protruding to the rear of the mobile body 52 has an effect that can effectively utilize the space.

In addition, a second hook portion 420 protrudes from the locking member 400 in the direction of the first hook portion 213.

The second hook portion 420 is formed to be bent in the rotational direction of the locking member 400 is hooked to the first hook portion 213.

The second hook part 420 is released from the first hook part 213 when the locking member 400 is rotated by the slider 300 to release the rotation stop of the angle adjusting member 200. .

As described above, the locking member 400 prevents the rotation of the angle adjusting member 200 and rotates by the movement of the slider 300 to release the rotation stop of the angle adjusting member 200. By preventing the occurrence of noise and vibration during the sliding of 300) there is an effect of improving the overall quality of the mobile terminal.

In addition, the second hook portion 420 is coupled to the first hook portion 213 to prevent the rotation of the angle adjustment member 200, the angle adjustment member 200 is rotated arbitrarily by an external impact And it has an effect of improving the rotation stopping force of the angle adjustment member 200.

The first elastic member 460 is made of a torsion spring, and is disposed to surround the first rotation shaft 230.

One end of the first elastic member 460 is mounted to the fixing member 100, and the other end of the first elastic member 460 contacts the locking member 400 to prevent rotation of the angle adjusting member 200 on the locking member 400. Add rotational force in the direction of

As described above, the first elastic member 460 is formed of a torsion spring to add rotational force to the locking member 400 in a direction of preventing rotation of the angle adjusting member 200, thereby allowing the second hook portion 420 to be rotated. In close contact with the first hook portion 213, the coupling force between the first hook portion 213 and the second hook portion 420 may be improved.

The stopper 510 is formed in a circular spherical shape and is mounted to slide along the mounting groove 121.

And the diameter of the stopper 510 is larger than the depth of the stop groove 212.

In addition, the stopper 510 is elastically supported in the direction of the stop groove 212 by the second elastic member 520.

The second elastic member 520 is made of a coil spring and is inserted into the mounting groove 121 to elastically support the stopper 510 in the direction of the stop groove 212.

One end of the stopper 510 is selectively inserted into the stop groove 212 by the rotation of the angle adjusting member 200 to stop the rotation of the angle adjusting member 200.

Of course, in some cases, the mounting groove 121 is formed in the angle adjusting member 200 so that the stopper 510 and the second elastic member 520 are mounted to the angle adjusting member 200, and the stop groove 212 may be formed in the fixing member 100.

The third elastic member 240 is made of a torsion spring, it is disposed to surround the first rotation shaft 230.

One end of the third elastic member 240 is mounted to the fixing member 100, and the other end is mounted to the angle adjusting member 200 so that the angle adjusting member 200 is in front of the fixing member 100. A rotational force is added to the angle adjusting member 200 so as to tilt.

As such, the third elastic member 240 is formed of a torsion spring, thereby adding rotational force to the angle adjusting member 200 to be inclined forward of the fixing member 100, thereby preventing rotation of the angle adjusting member 200. Simultaneously with the release, the angle adjusting member 200 automatically rotates a predetermined angle to proceed the non-stop sliding and tilting operation, thereby reducing the operating time of the tilt up module.

It describes the operation process of the tilt-up module for a mobile terminal according to an embodiment of the present invention made up of the above configuration.

FIG. 7 illustrates a state in which the mobile terminal mobile body 52 covers the upper portion of the mobile terminal basic body 51, and FIG. 8 illustrates a state in which the mobile terminal mobile body 52 slides to open the upper portion of the mobile terminal basic body 51. FIG. 9 and 11 show a state in which the mobile terminal moving body 52 is inclined inclined forward of the mobile terminal main body 51.

As shown in FIG. 7A, when the portable terminal mobile body 52 is disposed above the portable terminal body 51 and the upper portion of the portable terminal body 51 is closed, the portable terminal of the present invention is closed. The tilt up module is arranged as shown in FIG. 7 (b).

As shown in FIG. 7B, the fixing member 100 is disposed to be horizontal to the angle adjusting member 200, and the slider 300 is disposed to protrude forward of the guide member 220. .

The second hook portion 420 is coupled to the first hook portion 213, and the rotational force is applied to the locking member 400 in the counterclockwise direction by the first elastic member 460. The rotation of the angle adjusting member 200 is prevented.

In addition, the rotation force is applied to the angle adjusting member 200 in the counterclockwise direction by the third elastic member 240.

In addition, the stopper 510 compresses the second elastic member 520 in a direction opposite to the hinge portion 211 and is inserted into the mounting groove 121.

As shown in FIG. 8, when the slider 300 is manually pushed to the rear of the guide member 220, the slider 300 slides along the guide part 221 to the rear of the guide member 220. It is arranged to protrude.

In this case, although not shown in the drawing, when the slider 300 is manually slid over a certain distance with respect to the guide member 220, the spring module 350 slides the remaining distance semi-automatically.

In addition, as the slider 300 moves, the contact member 310 contacts the locking protrusion 410 to rotate the locking member 400 in a clockwise direction, and the second hook portion 420 moves the first hook. Detached from the hook portion 213 to release the rotation stop of the angle adjustment member 200.

As shown in FIG. 9B, the hinge portion 211 of the angle adjusting member 200 is automatically lifted by the third elastic member 240 while the rotation stop of the angle adjusting member 200 is released. It rotates in a counterclockwise direction about the first rotary shaft 230.

When the hinge part 211 rotates and the stop groove 212 is disposed at a position in communication with the mounting groove 121, the stopper 510 is elastically restored by the second elastic member 520. Is inserted into the stop groove 212 to stop the rotation of the angle adjustment member 200.

At this time, the mobile terminal mobile body 52 is tilted downward inclined forward on the mobile terminal main body 51, as shown in Figure 9 (a).

In addition, the locking member 400 is rotated counterclockwise by the elastic force of the first elastic member 460 to return to the initial position.

The process from the sliding of the slider 300 to the rotation of the angle adjustment member 200 is made of a non-stop.

Thereafter, as shown in FIG. 10 (a), when the inclination angle of the mobile terminal mobile body 52 is inclined more steeply, as shown in FIG. 10 (b), the angle adjusting member 200 is counterclockwise. It rotates further and stops rotation when the stopper 510 is inserted into another stop groove 212 adjacent to the stop groove 212.

As such, the stopper 510 is selectively inserted into the stop groove 212 by the rotation of the angle adjusting member 200, such that the mobile terminal mobile body 52 rotates at various angles with respect to the mobile terminal base body 51. It can be stopped so that the user can provide a variety of desired angles.

As described above, the locking member 400 prevents the rotation of the angle adjusting member 200 and rotates by the movement of the slider 300 to release the rotation stop of the angle adjusting member 200. When the 300 is sliding, the angle adjusting member 200 is fixed by the locking member 400 to prevent noise and vibration, and after the sliding is completed, the rotation of the angle adjusting member 200 is stopped. It can be interlocked so that the tilt up module can be operated quickly.

The tilt-up module for the portable terminal of the present invention is not limited to the above-described embodiment, and may be variously modified and implemented within the allowable technical spirit of the present invention.

51: mobile terminal basic body, 52: mobile terminal mobile body, 100: fixing member, 110: side portion, 120: central portion, 121: mounting groove, 130: first space portion, 140: second space portion, 200: angle adjustment member, 210: rotating member, 211: hinge portion, 212: stop groove, 213: first hook portion, 220: guide member, 221: guide portion, 222: through hole, 230: first rotating shaft, 340: third elastic member, 300: slider, 310: contact member, 350: spring module, 400: locking member, 410: locking projection, 420: second hook portion, 450: second rotating shaft, 460: first elastic member,

Claims (5)

A fixing member mounted to the mobile terminal basic body;
An angle adjusting member whose one end is rotatably coupled to one end of the fixing member;
A slider coupled to a mobile terminal moving body which opens and closes an upper portion of the mobile terminal basic body, and is mounted to slide on the upper portion of the angle adjusting member;
A locking member disposed below the angle adjusting member and coupled to the other end of the fixing member to prevent rotation of the angle adjusting member; Including but not limited to,
The angle adjusting member is formed with a long hole-shaped through hole in the direction of movement of the slider,
The locking member is formed with a locking protrusion disposed on the upper portion of the angle adjusting member through the through hole in the upper portion,
When the mobile terminal mobile body slides in one direction together with the slider to open the upper portion of the mobile terminal basic body, the locking projection contacts the slider and rotates the locking member in the moving direction of the slider while rotating the angle adjusting member. Tilt up module for a mobile terminal, characterized in that to release the jersey. The method of claim 1,
A first hook portion is formed below the angle adjusting member.
The locking member is hooked to the first hook portion is formed with a second hook portion for preventing the rotation of the angle adjustment member,
And the second hook portion is separated from the first hook portion when the locking member is rotated by the slider to release the rotation stop of the angle adjusting member. The method according to claim 1 or 2,
A first elastic member mounted to the fixing member and configured to add rotational force to the locking member in a direction of preventing rotation of the angle adjusting member; It is made, including more
The first elastic member is a tilt-up module for a mobile terminal, characterized in that consisting of a torsion spring. The method according to claim 1 or 2,
A stop groove is formed at one end of the fixing member or one end of the angle adjusting member,
One end of the fixing member or one end of the angle adjusting member is provided with a stopper for sliding in the direction of the stop groove and a second elastic member for elastically supporting the stopper in the direction of the stop groove, respectively.
One end of the stopper is inserted into the stop groove by the rotation of the angle adjusting member is tilted up module for a portable terminal, characterized in that for stopping the rotation of the angle adjusting member. The method of claim 4, wherein
A third elastic member mounted to the fixing member to add rotational force to the angle adjusting member such that the angle adjusting member is inclined forward of the fixing member; It is made, including more
The third elastic member is a tilt-up module for a mobile terminal, characterized in that consisting of a torsion spring.

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