KR100912634B1 - Movement spring for sliding type personal cellular phone - Google Patents

Abstract

An operation spring of a slide assembly for a slide-type portable terminal is provided to improve the durability in accordance with the elastic operation generated by the surface contact of a mutual adhesive part of a center adhesive part. First and second repulsion units(100,200) comprise elastic units(10,10'), bending fixing units(20,20') and bending adhesive units(30,30'). The elastic units are formed by bending a material in the spiral type in the center. The bending fixing units are formed at the end of outer extension part of the material. The bending adhesive units are formed at the end of inner extension part of the material. The first and second repulsion units are opposite parallel to each other so that the bending adhesive units can vertically come in contact with each other.

Description

Operation spring of slide assembly for sliding portable terminal {Movement spring for sliding type personal cellular phone}

The present invention relates to an operating spring of a slide assembly for a portable portable terminal, and more particularly, the elastic operation force is maximized by a double structure in which a plurality of spiral springs are joined, and the durability of the center joint is elastic according to the conventional operation. It relates to an excellent operation spring of the slide assembly for a portable portable terminal to maximize the use reliability.

In general, there are several types of portable terminals, such as bar type, flip type, folder insertion, etc. Recently, a slide type which can be easily operated with one hand is widely used.

The slide-type portable terminal is composed of a lower base provided with a dial key pad, an upper base mounted on an upper portion of the lower base and provided with an LCD screen on an upper surface thereof, and a slide assembly in which the upper base and the lower base are fastened in a slide manner. have.

The slide assembly includes a guide rail member, a slide member which is guided up and down along the guide rail member, and an operation spring having both ends connected to the guide rail member and the slide member.

In addition, the guide rail member and the slice member is to combine the upper base and the lower base of the portable terminal, respectively.

The slide assembly maintains a state in which the operating spring is unfolded as much as possible without applying external force, that is, the slide member is pushed farthest in the upward direction of the guide rail member or pushed farthest in the downward direction.

In this state, when the slide member moves upward or downward, the slide spring is opened at a position where the operation spring is compressed in the center of the guide rail member in the state where the operating spring is opened and then the movement is completed again in the opposite direction.

According to this principle, the upper base of the portable terminal is pushed up from the lower base to be used in an open state, and then the operation of closing the upper base again is performed simply.

At this time, the conventional operating spring is applied in a variety of forms, but in Patent Publication No. 2009-6026 used a spiral spring of the spiral form.

It is a coil elastic portion bent in a spiral form, the coil elastic portion

The first and second wire portions extending from one end portion disposed in the inner and outer sides thereof and extending in opposite directions to each other.

That is, the first and second wires are elastically connected to the guide rail member and the slide member so that the coil elastic portion of the elastic spring is elastically compressed when the slide member is moved upward or downward.

However, the above-described conventional spiral spring spring has a problem that the elastic force is weak because it is operated by a single coil elastic portion can not provide a smooth operating force.

In addition, there is a problem in that the stress is concentrated in the elastic compression process of the coil elastic portion is easily damaged or deformed to significantly reduce its durability.

In addition, since the coil elastic part has a helical structure in which the diameter simply decreases gradually, the difference in the spiral size of the coil elastic part connected to the first and second wire parts is remarkable, so that the actuation force is balanced to the first and second wire parts. There is a problem that the stress on one side is not concentrated so that the durability of the coil elastic portion is further reduced.

The present invention has been invented to solve the above problems of the prior art, the elastic operation force is maximized by a dual structure in which a plurality of spiral springs are bonded, as well as the durability of the central joint portion compared to the conventional elastic operation excellent The purpose is to maximize the use reliability.

This invention,

It is connected to the guide rail member and the slide member of the slide assembly to move the slide slide;

The bending joint is formed by parallelly forming the elastic part that spirally bends the material at the center and the first and second elastic means for forming the bending fixing part at the end of the outer extension of the material and the bending adhesive part at the end of the inner extension of the material in parallel. There is a characteristic in that it is configured by joining face to face up and down.

The first and second elastic means material of the present invention is characterized in that it is bent to form a leaf spring material having a thin rectangular cross-sectional structure.

The elastic part of the first and second elastic means of the present invention, the first bending portion spirally bent inward from the outer extension portion, the second bending portion spirally bent inward from the first bending portion, and the secondary bending portion In the form of the third bending band spirally outward again, the elastic portion of the first and second elastic means is characterized in that the bending direction is formed so as to face the spiral direction from the top to the bottom, respectively from the bottom to the top.

The elastic part of the first and second elastic means of the present invention is formed as a single bending portion spirally bent inward from the outer extension portion, wherein the bending portion is formed in the bending direction so as to face the spiral direction from the top to the bottom, respectively from the bottom to the top There is a characteristic.

The present invention maximizes the elastic actuation force by the dual structure in which the elastic spring in the center and the helical spring first and second resilient means having the bending parts and the bonding parts are opposed to each other, and the mutual bonding parts of the central adhesive parts are in contact with the surface. It is excellent in durability due to the elastic operation compared to the conventional to have the effect of maximizing the use reliability.

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

The slide type operating spring for a personal portable terminal of the present invention is characterized by providing a double structure in which a plurality of spiral springs are joined.

That is, the present invention, as shown in Figures 1 to 6, the bending portion 20, 20 'at the end of the elastic portion 10, 10' and the outer extension of the material spirally bent in the center And the first and second elastic means 100 and 200 which form the bending adhesive parts 30 and 30 'at the ends of the inner extension of the material in parallel to form the bent joint parts 30 and 30'. It is made by joining face up and down.

At this time, the material of the first and the second ballistic means 100, 200 is formed by bending the plate spring material 5 having a thin rectangular cross-sectional structure.

Particularly, the bent adhesive portions 30 and 30 'of the first and second elastic means 100 and 200 are faced to each other by facing up and down in a large area.

In addition, the elastic portions 10 and 10 'of the first and second elastic means 100 and 200 may be formed of the primary bending portion 11 spirally bent inward from the outer extension portion and the primary bending portion. The secondary banding portion 12 spirally inwardly formed and the third banding portion 13 spirally bent outwardly from the secondary banding portion, wherein the first and second elastic means 100 and 200 are formed. The elastic portions 10 and 10 'of the spiral direction are formed by bending each other from the top to the bottom and from the bottom to the top, respectively.

Unexplained reference numerals 1a and 2a indicate fixing protrusions for fixing the bending fixing parts 20 and 20 'of the first and second elastic means to be fixed by other fixing means.

Next will be described the operation and action of the present invention configured as described above.

The actuating spring of the present invention utilizes a plurality of first and second resilient means.

That is, the first and second elastic means 100 are provided by providing a dual structure in which the inner bending adhesive parts 30 and 30 'of the first and second elastic means 100 and 200 are faced up and down and welded in a surface contact state. The outer bending fixing parts 20 and 20 'of the 200 are assembled to the guide rail member 1 and the slide member 2 of the slide assembly, respectively.

The operating spring of the present invention installed as described above is the state in which the first and second resilient means 100 and 200 are fully deployed in a state where no external force is applied, that is, the slide member 2 is most upward in the guide rail member 1. It is pushed away or stayed pushed farthest down.

When the slide member 2 moves upward or downward in this state, it is shown in FIG. 5 at the center of the guide rail member 1 in the state where the first and second elastic means 100 and 200 are opened. As described above, the shot is compressed.

In this case, the plurality of first and second elastic means (100, 200) is to concentrate the stress to the center junction portion, the material of the first and second elastic means (100, 200) is a rectangular cross-sectional structure of thin thickness It is formed by bending the leaf spring material (5) having the bending portion 30, 30 'of the first and second resilient means (100, 200) are joined to a large area up and down because of the concentration of stress It is to prevent damage that is broken or deformed.

In addition, the buffer is distributed in the elastic portions 10 and 10 'of the plurality of first and second elastic means 100 and 200, respectively, so as to disperse stress, thereby preventing breakage or deformation.

In the same state as described above, the slide member 2 is moved in the opposite direction by the elastic force of the first and second elastic means 100 and 200 to be opened.

Particularly, since the plurality of first and second elastic means 100 and 200 are connected in parallel, the plurality of elastic parts 10 and 10 'of the first and second elastic means 100 and 200 are connected. The elastic force is doubled to more smoothly provide an operation of moving the slide member 2 elastically.

In addition, the elastic portion 10 (10 ') of the first and second elastic means 100, 200 is the primary bending portion 11, which is helically banded inward from the outer extension portion, and in the primary bending portion It is formed of the secondary bending portion 12 spirally bent inward again and the tertiary bending portion 13 spirally bent outward from the secondary bending part again, wherein the first and second elastic means 100 and 200 are formed. Elastic part (10, 10 ') of the spiral is formed from the upper side to the lower side, the lower side to the upper side to form the bending force is generated in both elastic first and second elastic means to balance the durability of the elastic portion It will provide better.

Meanwhile, the first and second elastic means 100 and 200 may be implemented differently as shown in FIG. 7, which is the elastic part 10-1 and 10 ′-in comparison with the above-described embodiment. 1) is formed of a single bending portion 14 spirally bent inward from the outer extension portion, wherein the bending portion is formed by bending in a direction opposite to the spiral from the top to the bottom and from the bottom to the top. By connecting the first and second elastic means in parallel to provide the same effect as the above-described embodiment, the elastic force of the elastic portion 10-1, 10'-1 can be applied in a form that is weaker than the above-described embodiment will be.

Therefore, the present invention is provided by the structure in which the plurality of first and second elastic means 100 and 200 are bonded in parallel to provide excellent durability as well as excellent elastic force for moving the slide member so that the user can easily use the slide operation. .

1 is a plan view of the present invention.

2 is a front configuration diagram of the present invention.

Figure 3 is an exploded perspective view of a state in which the present invention is installed.

4 to 6 is an operational state diagram of the present invention.

7 is a plan view showing another embodiment of the present invention.

** Description of the symbols for the main parts of the drawings **

10,10 ', 10-1,10'-1: elastic part

20,20 ': Fixed part

30,30 ': bend joint

100,200: first and second bullet means

11,12,13: 1,2,3nd bending part

Claims (4)

In the operating spring is connected to the guide rail member and the slide member of the slide assembly to move the slide slides, Elastic parts 10, 10 'which are spirally bent in the center, and bent fixing parts 20, 20' at the end of the outer extension of the material and bent adhesive parts 30, 30 at the end of the inner extension of the material. The first and second resilient means (100, 200) forming a ') to form a parallel portable terminal, characterized in that formed by facing the bending joints 30, 30' face up and down in parallel Working spring of the slide assembly. The method of claim 1, The spring of the first and second resilient means (100, 200) is formed by bending the leaf spring material having a thin rectangular cross-sectional structure (5) of the slide spring for the mobile assembly of the slide assembly. The method of claim 1, The elastic portions 10 and 10 ′ of the first and second elastic means 100 and 200 are formed of a primary banding portion 11 spirally bent inward from an outer extension portion, and an inner portion of the first and second elastic means 100 and 200. Of the first and second elastic means (100) and (200) of the first and second elastic means (100) and the second bending portion (12) and the third bending portion (13) spirally bent outward from the secondary bending portion again. Elastic portion (10) (10 ') is a spring operation of the slide assembly for a mobile portable terminal, characterized in that the spiral direction is formed by forming a band facing each other from the top to the bottom, from the bottom to the top. The method of claim 1, The elastic portions 10-1 and 10 ′-1 of the first and second elastic means 100 and 200 are formed of a single bending portion 14 spirally bent inward from an outer extension portion, and the bending Part of the operating spring of the slide assembly for a portable portable terminal, characterized in that the spiral direction is formed by bending the upper side to the lower side, the lower side to the upper side respectively.

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