KR100669990B1 - Elastic spring for a slim type slide module - Google Patents

Abstract

An elastic spring for a slim type slide module is provided to reduce a space between a fixed plate mounted on a main body of a portable and a movable plate mounted on a cover, thereby minimizing the thickness of the slide module and easily making a slide portable phone slim. In an elastic spring(300) used for a slide module where a movable plate mounted on a cover slides up/down on a fixed plate mounted on a main body of a portable phone, the elastic spring comprises the followings: a bending unit(330) having a circular arc shape; and spiral units(310,320) each bent at both ends of the bending unit(330). The spiral units(310,320) are respectively combined with a fixed plate and a movable plate, and generate elastic restoration force while the movable plate slides on the fixed plate.

Description

Elastic spring for slim slide module {ELASTIC SPRING FOR A SLIM TYPE SLIDE MODULE}

1A and 1B are perspective views of springs used in a conventional slide module.

Figure 2 is a perspective view of the elastic spring according to an embodiment of the present invention.

3 is a perspective view of a slide module to which the elastic spring of FIG. 1 is applied.

4A-4C show an operation of the slide module of FIG. 3.

5 is a perspective view of an elastic spring according to another embodiment of the present invention.

6a to 6c is an operation of the slide module to which the elastic spring of Figure 5 is applied.

7 is a perspective view of an elastic spring according to another embodiment of the present invention.

8a to 8c is an operation of the slide module to which the elastic spring of Figure 7 is applied.

※ Explanation of symbols used in main part of drawing

100: fixed plate

200: moving plate

300, 400, 500: elastic spring

310, 320, 410, 420, 510: spiral

520 ring

330, 430, 530: bending part

The present invention relates to an elastic spring for a slim slide module, and more particularly, so that the gap between the fixed plate mounted on the body of the mobile phone and the mobile plate mounted on the cover is narrowed so that the slide module of the slide mobile phone can be made slim. The present invention relates to an elastic spring in which elasticity and durability are enhanced.

According to a general slide-type mobile phone module, by sliding the movable plate mounted on the cover with respect to the fixed plate mounted on the main body to open and close a part of the cover, the elastic spring is coupled between the fixed plate and the movable plate, By the elastic restoring force of the elastic spring, the sliding movement is possible semi-automatically.

Conventional elastic springs for slide modules are shown in FIGS. 1A and 1B.

FIG. 1A is a compression coil spring 10, and FIG. 1B is an elastic spring 20 having a structure in which both ends of the outer and inner sides are drawn after spirally wound the middle. One end of the compression coil spring 10 and the elastic spring 20 is coupled to the fixed plate (not shown), and the other end is coupled to the movable plate (not shown) to provide elastic restoring force during sliding movement.

However, since the coil spring 10 is spirally wound and formed a plurality of times, a gap between the fixed plate 200 and the movable plate 300 is required by the thickness of the coil spring 10, so that the slide module becomes thick. There is, there is a fear that the elastic force of the coil spring 10 is lowered and durability is broken due to repeated sliding operation.

In addition, the elastic spring 20 has an elastic portion 26 to generate an elastic restoring force in the center, and when the ends 22 and 24 are pulled out by winding the elastic portion 26 in the center a plurality of times, FIG. As shown, the balance of weight is changed between the ends 22 and 24 in the vertical direction. That is, since the outer end portion 22 and the elastic portion 26 are all at the same height, and only the inner end portion 24 is in a high position with a slight height difference, the center of gravity is directed toward the outer end portion 22. If the spring 20 is compressed in this state and the spring 20 is compressed, the two ends 22 and 24 are not centered, so that the spring 20 is easily twisted. When the warp touches the bottom surface of the moving plate, noise may be generated and the life of the spring 20 may be shortened.

Accordingly, an object of the present invention is to provide a spring for a slim slide module that allows the slide module to be slim, and elastic resilience and durability is enhanced.

The above object of the present invention,

An elastic spring used for a slide module in which a movable plate mounted on a cover is slid up and down relative to a fixed plate mounted on a main body of a mobile phone, the bending portion having a circular arc shape and each bent at both ends of the bending portion It includes a spiral portion is formed, the spiral portion is coupled to the fixed plate and the movable plate, respectively, to provide an elastic spring for a slim slide module, characterized in that to generate an elastic restoring force during sliding movement of the fixed plate to the fixed plate. Is achieved by.

In addition, the above object of the present invention,

An elastic spring used for a slide module in which a movable plate mounted on a cover is slid up and down with respect to a fixed plate mounted on a main body of a mobile phone, wherein the bending part has a sinusoidal shape and is bent at both ends of the bending part. And a spiral portion, wherein the spiral portion is respectively coupled to the fixed plate and the movable plate to generate an elastic restoring force during sliding movement of the movable plate with respect to the fixed plate. Is achieved.

In addition, the above object of the present invention,

An elastic spring used for a slide module in which a movable plate mounted on a cover is slid up and down relative to a fixed plate mounted on a main body of a mobile phone, wherein the bending part has a circular arc shape and is bent at one end of the bending part. A spiral portion and a ring portion bent at the other end of the bending portion, wherein the spiral portion and the ring portion are coupled to the fixed plate and the movable plate, respectively, to be elastic when sliding the movable plate with respect to the fixed plate. It is achieved by providing an elastic spring for a slim slide module, characterized by generating a restoring force.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are intended to describe in detail enough to be able to easily carry out the invention by one of ordinary skill in the art, This does not mean that the technical spirit and scope of the present invention is limited.

Figure 2 is a perspective view of an elastic spring according to an embodiment of the present invention, Figure 3 is a perspective view of a slide module to which the elastic spring of Figure 2 is applied.

As shown in FIG. 2 and FIG. 3, the elastic spring 300 according to the present invention includes a bending part 330 and spiral parts 310 and 320.

The bending part 330 has an arc-shaped curve, more specifically, a heat arc-shaped curve, and the elastic plate deforms when the movable plate 200 slides with respect to the fixed plate 100, and the elastic restoring force corresponding thereto. Generates.

The spiral parts 310 and 320 are bent at both ends of the bending part 330 to be wound in a spiral shape, and one end of the spiral part (hereinafter referred to as a “first spiral part”) 310 is fixed plate 100. The other end of the spiral portion (hereinafter referred to as the "second spiral portion") 320 is coupled to the moving plate 200. The first spiral portion 310 is bent at one end of the bending portion 330 is formed to be wound in a clockwise direction is coupled to the fixing pin 110 is installed on one side of the center of the fixing plate 100, the second spiral portion 320 ) Is bent at the other end of the bending portion 330 is formed to be wound in a counterclockwise direction is coupled to the fixing pin 210 is installed on the other center of the moving plate 200. The first and second spiral parts 310 and 320 are wound and formed a plurality of times, which is to generate stronger elastic restoring force and to enhance durability.

Since the bending part 330 and the spiral parts 310 and 320 are formed to lie on the same horizontal plane, the slide module 330 and the fixed part 100 may be installed and used even if the gap between the moving plate 200 and the fixed plate 100 is narrow. It can be made thinner, making it possible to slim down mobile phones.

The elastic spring 300 shown in Figure 2 may be used is installed between the fixed plate 100 and the moving plate 200, according to a preferred embodiment of the present invention fixed plate 100 and the moving plate ( It is preferable to use a symmetrical structure by including one more elastic spring 300 between the 200. That is, when one elastic spring 300 is used, the elastic force may be reduced or the durability may be weakened due to frequent sliding movement, and thus, the elastic spring 300 may be broken. When two elastic springs 300 are used, This is because elasticity and durability can be enhanced.

When an external force is applied and the movable plate 200 is slid and moved, the elastic spring 300 is elastically deformed and elastic restoring force is generated to maintain the original shape as shown in FIG. 2, thereby allowing the semi-automatic sliding movement. Done.

4A to 4C are operation diagrams of the slide module of FIG. 3, with reference to this, an operation state of the slide module of FIG. 3 will be described.

Figure 4a is the initial state of the slide module, the moving plate 200 is located in the lower end of the drawing of the fixed plate 100, the mobile phone is a state in which the cover is closed with respect to the main body (not shown). At this time, the elastic spring 300 is in a state of maintaining the original shape shown in Figure 2, even if a fine external force is applied in the upward or downward direction in the drawing due to the elastic restoring force of the elastic spring 300 moving plate ( 200 is not slidingly moved relative to the stationary plate 100.

Here, when an external force is applied and the moving plate 200 is pushed upward in the drawing, the second spiral portion of the elastic spring 300 coupled to the moving plate 200 rises upward in the drawing. The bending part 330 of the elastic spring 300 is bent under compressive force to generate an elastic restoring force corresponding thereto, and the first spiral part 310 and the second spiral part 320 are deformed, respectively. The elastic spring 300 generates the elastic restoring force in the downward direction until the movable plate 200 is slid to the fixed plate 100 by a predetermined length so that the movable plate 200 moves downward in the figure. You will be forced to descend.

4B illustrates a case in which the movable plate 200 is slidably moved with respect to the fixed plate 100 by a predetermined length, and the compressive force and the elastic restoring force of the elastic spring 300 are parallel to each other. In this position, the movable plate 200 is moved. Can be stopped. Since the elastic spring 300 generates an elastic restoring force in the downward direction in the drawing until the movable plate 200 is slid by the position shown in FIG. 4B, when the external force disappears, the movable plate 200 is moved due to the elastic restoring force. Automatically sliding downward in the drawing. On the other hand, when an external force is applied and the movable plate 200 is slid to the position shown in FIG. 4B, the elastic spring 300 generates an elastic restoring force in an upward direction in the drawing. 200 is automatically sliding upward in the drawing, as shown in Figure 4c the moving plate 200 is located on top of the fixed plate 100 in the drawing.

Even when an external force is applied in the state of FIG. 4C and the movable plate 200 is slid downward in the drawing, the elastic restoring force of the elastic spring 300 is maintained until the movable plate 200 is moved by the position shown in FIG. 4B. Generated upward in the drawing has a property to push the moving plate 200 upward in the drawing, the elastic restoring force of the elastic spring 300 when the moving plate 200 is moved beyond the position shown in Figure 4b It is generated in the downward direction in the drawing and has the property of bringing down the moving plate 200 downward in the drawing.

5 is a perspective view of an elastic spring according to another embodiment of the present invention.

As shown in FIG. 5, the elastic spring 400 includes a bending part 430 and spiral parts 410 and 420.

The bending part 430 has a sinusoidal shape, and the elastic restoring force is generated by sliding the moving plate 200 at the same time.

The spiral parts 410 and 420 are bent at both ends of the bending part 430 to be wound in a spiral form, and one end of the spiral part (hereinafter referred to as a “third spiral part”) 410 is a fixed plate 100. And a spiral portion (hereinafter referred to as a "fourth spiral portion") 420 of the other end is coupled to the moving plate 200. The third spiral portion 410 is bent at one end of the bending portion 430 is formed to be wound in a counterclockwise direction is coupled to the fixing pin 110 is installed on the central side of the fixing plate 100, the fourth spiral portion ( 420 is bent at the other end of the bending portion 430 is formed to be wound in a counterclockwise direction is coupled to the fixing pin 210 is installed on the other side of the center of the movable plate (200).

Since the bending part 430 and the spiral parts 410 and 420 are formed to lie on the same horizontal plane, the slide module can be installed and used even when the gap between the moving plate 200 and the fixed plate 100 is narrow. It can be made thinner, making it possible to slim down mobile phones. In addition, the elastic spring 300 has a shape that is vertically symmetrical with respect to the horizontal plane, and thus the twist is not generated during the sliding movement with respect to the fixed plate 100 of the movable plate 200 is enhanced durability.

Similarly to the elastic spring 300 illustrated in FIG. 2, the elastic spring 400 illustrated in FIG. 5 may be provided with one or two elastic springs 400 installed between the fixed plate 100 and the movable plate 200. Can be.

6a to 6c are views illustrating the operation of the slide module to which the elastic spring 400 of FIG. 5 is applied.

Since the operation of the slide module illustrated in FIGS. 6A to 6C is the same except that there is a difference in the shape of the elastic spring and the operation of the slide module illustrated in FIGS. 4A to 4C, description of the operation is omitted.

7 is a perspective view of an elastic spring according to another embodiment of the present invention.

As shown in FIG. 7, the elastic spring 500 includes a bending part 530, a spiral part 510, and a ring part 520.

Technical features of the bending part 530 are the same as those of the bending part 330 of the elastic spring 300 of FIG. 2.

The spiral part 510 is bent at one end of the bending part 530 and is formed to be wound in a spiral shape. The spiral part 510 is coupled to the fixing pin 110 installed in the fixing plate 100 and wound in a clockwise direction. However, the spiral portion 510 may be wound in a counterclockwise direction and coupled to the moving plate 200.

The ring part 520 is bent at the other end of the bending part 530 and is coupled to the fixing pin 210 installed on the moving plate 200.

Similarly to the elastic spring 300 illustrated in FIG. 2, the elastic spring 500 illustrated in FIG. 7 may be used by using one or two elastic springs 500 installed between the fixed plate 100 and the movable plate 200. Can be.

8A to 8C are views illustrating an operation of the slide module to which the elastic spring 500 of FIG. 7 is applied.

Since the operation of the slide module illustrated in FIGS. 8A to 8C is the same except that there is a difference in the shape of the elastic spring and the operation of the slide module illustrated in FIGS. 4A to 4C, description of the operation is omitted.

Therefore, according to the elastic spring for the slim slide module according to the present invention, the thickness of the slide module can be minimized, thereby making it possible to easily slim the slide mobile phone.

In addition, since both ends of the elastic spring are wound helically a plurality of times, a sufficient elastic force is secured during the sliding movement so that the sliding movement state is maintained as it is, so that the opening and closing of the cover can be completed.

In addition, since the bent portion and both ends of the elastic spring are positioned on the same horizontal plane and symmetrically up and down relative to the horizontal plane, the elastic spring is not twisted during sliding movement and durability is enhanced.

Claims (3)

In the elastic spring used in the slide module that the movable plate mounted on the cover is moved up and down sliding to the fixed plate mounted on the main body of the mobile phone, A bending part having an arc shape; And And a spiral portion formed by bending at both ends of the bending portion, wherein the spiral portion is coupled to the fixed plate and the movable plate, respectively, to generate an elastic restoring force during sliding movement of the movable plate with respect to the fixed plate. Springs for slim slide modules. In the elastic spring used in the slide module that the movable plate mounted on the cover is moved up and down sliding to the fixed plate mounted on the main body of the mobile phone, A bending part having a sinusoidal shape; And And a spiral portion formed by bending at both ends of the bending portion, wherein the spiral portion is coupled to the fixed plate and the movable plate, respectively, to generate an elastic restoring force during sliding movement of the movable plate with respect to the fixed plate. Springs for slim slide modules. In the elastic spring used in the slide module that the movable plate mounted on the cover is moved up and down sliding to the fixed plate mounted on the main body of the mobile phone, A bending part having an arc shape; A spiral portion bent at one end of the bending portion; And And a ring portion formed by bending at the other end of the bending portion, wherein the spiral portion and the ring portion are coupled to the fixed plate and the movable plate, respectively, to generate an elastic restoring force during sliding movement of the movable plate with respect to the fixed plate. Elastic spring for a slim slide module, characterized in that.

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