KR20090066354A - Slide hinge with guide rail - Google Patents

Abstract

A slide hinge equipped with a guide rail for a slide type mobile terminal is provided to secure assembly, the stability of operation and the planarity of product, increase the driving force of spring and make the mobile terminal slim. When sliding, a unit elastic body(10) elastics at least one of both driving ends with ends the elastic force. A guide pin(20) is formed in one end among both ends of the unit elastic body. A guide rail(30) is formed in the other end of the unit elastic body according to the route that the guide pin is the arc phase shift. The elasticity movement is performed in the slide action of instrument while the guide pin moves in the guide rail.

Description

Slide Hinge with Guide Rails {Slide Hinge with Guide Rail}

The present invention relates to a slide hinge interposed between the front portion and the main body portion of the mobile phone that is opened and closed by a slide method to provide an elastic force when opening and closing the slide, and relates to a slide hinge having a guide rail to ensure a spring preload and a movement path. .

Portable devices such as mobile communication terminals or cameras have various types of opening and closing methods in consideration of functionality and design, and a device adopting a slide method in which the front part of the device slides from the main body is opened.

In the opening and closing performance of the device adopting the slide method, the biggest issue is the driving force of the slide hinge, so that a constant and stable elastic motion can be performed even in repeated use.

In addition, the slide hinge is a module interposed between the main body portion and the front portion of the device, which affects the thickness of the product much, more delicate design is required for this.

Conventional slide hinges include a push rod method and a torsion spring method, but a torsion spring method is preferred according to a slimming trend.

Regardless of its shape, a common problem of the conventional torsion spring method is that there is a lack of assembly to preload and maintain the spring in the manufacturing process, and lack a structure that can guarantee the constant or stability of the spring's elastic motion path. As such, this problem causes deformation of the spring (bending of the product), cannot guarantee the flatness of the product, and is a major cause of device failure.

The present invention is to solve the problems of the above-described conventional slide hinge, while providing a slide hinge of the structure that can ensure the assembly force, the stability of the operation and the flatness of the product while providing a driving force enhancement and slimming of the spring. For the purpose of

The present invention, at least one side of both of the operating end receiving the elastic force when the slide movement as a spring elastic unit elastic movement on the arc; Guide pins formed at one side of both working ends of the unit elastic body; And a guide rail extending along a path in which the guide pin is moved in an arc on the other side of the unit elastic body, wherein the guide pin moves in an arc shape in the guide rail and performs an elastic movement during a slide movement of the device. It provides a slide hinge having a guide rail, characterized in that.

According to another feature of the present invention, a spring having a coil portion wound from both ends, the both ends are coupled to the slide-type device unit unit elastic body that expands and contracts simultaneously on the arc at the same time when the slide movement; Guide pins formed at one end of both ends of the unit elastic body; And a guide rail extending along a path in which the guide pin moves on an arc at the other end of the unit elastic body. The guide pin moves in an arc on the guide rail in an arc shape and performs an elastic movement during a slide movement of the device. It provides a slide hinge having a guide rail, characterized in that.

According to another feature of the present invention, a spring comprising two coil portions wound from an end portion and a connection portion between the two coil portions, wherein the connection portion is an operating end, and both ends of the spring are circular arcs around the coil portion. A pair of unit elastic bodies that stretch and move upward; A guide pin formed on one of both ends of the spring and at both operating ends of the unit elastic body including the connection part; And guide rails extending to the other one of the two operation ends along a path along which the guide pin is moved; both ends of the spring move in an arc shape along the guide rails by using the connection part as the support shaft during the slide movement of the device. And provides a slide hinge having a guide rail, characterized in that to perform an elastic movement.

According to the present invention, by providing a guide rail in the expansion path of the spring (elastic material), it is easy to apply and maintain the preload on the spring (elastic material), the movement path is not deformed, so that the stability of the performance, flatness of the product and product It has the advantage of ensuring durability.

In addition, since the structure does not limit the elastic force of the spring, even if only one slide in a small area provides a sufficient driving force.

Looking at the advantages of the manufacturing process, the thickness can be minimized by insert injection, which contributes to the slimmer product, and the manufacturing process is simplified to realize both mass production and economic efficiency.

The present invention is provided with a unit elastic body as a spring that at least one side of the two operating ends subjected to the elastic force during the slide movement of the device to expand and contract in an arc, a guide pin is mounted on one of the two operating ends, the guide pin on the other end Is formed along the movement path of the technical features characterized in that it comprises a guide rail coupled with the guide pin.

Hereinafter, the technical features of the present invention will be described in detail with reference to FIGS. 1 to 4.

1 shows a slide hinge according to the present invention implemented using a unit elastic body.

The unit elastic body of the present invention can be used in the spring of various shapes, in view of the different elastic force exerted by the material, if only the required elastic force can be secured, all from a straight to a spring having a torsion of various shapes It can be used.

In addition, the unit elastic body refers to a functional elastic unit that is at least one of the two operating ends subjected to the elastic force is a perspective and stretch, which may be composed of a plurality of unit elastic body by connecting two or more elastic bodies according to the length or area of the stroke. (See Figures 2 and 3)

In the case of Figure 1 is a unit elastic body having a coil portion 102 of a two-layer structure, both ends 101 of the unit elastic body 10 functions as an operating end, one end of the guide pin 20 is It is formed, and the other end is provided with a guide rail 30 extending along the path in which the guide pin is moved on an arc.

In addition, a unit elastic body 10 is provided so that both ends 101 of the elastic body are directly coupled to the device, and the device coupling parts 201 and 301 are provided at both ends.

As a result, the guide pin 20 is seated on the guide rail 30 to move in an arc shape to perform a slide elastic movement.

The guide pin and the guide rail are preferably combined by the unit elastic body and the insert injection. According to the insert injection, it is possible to achieve the simplification of the manufacturing process, the cost reduction, and the slimming of the product because there is no need for a separate coupling member even though it is firmly coupled. have.

2 is for explaining the manufacturing method using the insert injection method, the unit elastic body of (A) is molded integrally with the guide pin and the guide rail by insert injection, as shown in (B), and the last step (C The slide hinge is completed by preloading the guide pin to the guide rail.

3 illustrates a case where a plurality of unit elastic bodies are provided.

In this case, the unit elastic body is connected to the elastic support shaft as one operating end, the both ends of the spring is an arc-like stretching movement, the coupling with the device is implemented through the device coupling portion on both ends of the spring.

Therefore, one of the two operating ends consisting of one end and the connecting portion of the spring is formed with a guide pin, the other one is formed with a guide rail along the path that the guide pin is moved.

Referring to the embodiment of FIG. 3 in more detail, the unit elastic body 10a is wound from the one end 101a to the center in the same plane in the inward direction and reaches the center to extend the layers to form the first coil part 102a. The second coil part 102a formed in a reverse order to the process of forming the first coil part at a position diagonally symmetrical with the first coil part about the connection part while being formed from the first coil part. ') Is provided to form a pair of unit elastic bodies 10a.

Both ends 101a of the unit elastic body 10a are opened from the first coil part 102a and the second coil part 102a 'to face each other in opposite directions, and the guide pin 20a and the device coupling part 201a are provided. Equipped with.

The guide rail 30a is coupled to the connecting portion 103a in a symmetrical shape with two circular arcs wound around the first coil portion and the second coil portion between the first coil portion and the second coil portion in a 'S' shape. It is.

In addition, the connecting portion 103a and the guide rail 30a have a structure intersecting with the letter 'X', and the connecting portion 103a of both operating ends including the connecting portion 103a and the elastic end portion 101a has a support shaft. As the elastic end portion 101a is simultaneously perspective around the coil part and two unit elastic bodies providing elastic force are symmetrically connected to each other, the structure may be advantageous in implementing a long stroke.

4 is another embodiment having two unit elastic bodies. The unit elastic body 10b is wound around the one end 101b in the same plane inwardly and extends in different layers when reaching the center of the first coil part ( 102b) and a second coil part 102b 'formed in a reverse order to the process of forming the first coil part at intervals of the length of the connection part, while forming a connection part 103b which is formed from the first coil part. It is provided with both ends are formed to face in the same direction to open from the first coil portion and the second coil portion, the spring end 101b and the connecting portion 103b constitute both operating ends of the unit elastic body.

In addition, the guide rail 30b has a shape in which two arcs surrounding the first coil part and the second coil part are arranged between both ends of the first coil part and the second coil part in a '3' shape. The connecting portion 103b and the guide rail 30b overlap each other in the same direction.

That is, the guide rail 30b is provided in the connecting portion 103b in the direction of both ends of the elastic body, the guide pins 20b are provided at both ends 101b of the elastic body, and both ends of the elastic body 101b are device coupling parts 201b. It is coupled to the device through) to simultaneously move towards the coil.

In the case of such a structure, not only the implementation of the long stroke, but also provides a strong driving force, and has the advantage of strengthening the durability of the elastic body.

In the above embodiments, the guide pin has a larger area than the lower part, and is supported on the upper part so as not to be separated. The guide rail has an insert hole at one side to allow the upper area of the guide pin to pass therethrough. The movement path of the guide pin may be formed in the lower width of the guide pin, so that once the guide pin is seated through the insert hole, the movement path may not be separated from the movement path.

The guide pin and the guide rail may be provided in plural per unit elastic body, and the specific shape of the guide pin and the guide rail itself is not technical features of the present invention. It can be applied to the bonding structure of the invention.

1 is an exemplary view when one unit elastic body is provided as an embodiment according to the present invention.

2 is an exemplary method of assembling the slide hinge according to the present invention.

Figure 3 is an illustration of a case having two unit elastic bodies as an embodiment according to the present invention.

4 is an exemplary view when two unit elastic bodies are provided as an embodiment according to the present invention.

<Description of the major reference numerals>

10, 10a, 10b: unit elastic body 101, 101a, 101b: spring end

102, 102a, 102b: coil portion 103a, 103b: connection portion

20, 20a, 20b: guide pins 201a, 201b: device coupling part

30, 30a, 30b: guide rail

Claims (6)

A unit elastic body which at least one side of both of the operating ends subjected to the elastic force when the slide moves is stretched on the arc; Guide pins formed at one end of both ends of the unit elastic body; And A guide rail extending along a path in which the guide pin is moved in an arc on the other end of the unit elastic body, wherein the guide pin moves in an arc in the guide rail and performs an elastic movement during a slide movement of the device. Slide hinge provided with a guide rail, characterized in that. A spring having a coil portion wound from an end, the spring comprising: a unit elastic body coupled to a slide type device and configured to expand and contract on an arc at the same time around the coil portion when the slide moves; Guide pins formed at one end of both ends of the unit elastic body; And A guide rail extending along a path in which the guide pin is moved in an arc on the other end of the unit elastic body, wherein the guide pin moves in an arc in the guide rail and performs an elastic movement during a slide movement of the device. Slide hinge provided with a guide rail, characterized in that. A spring comprising two coil parts wound from an end and a connection part between the two coil parts, wherein a pair of pairs of springs are stretched in an arc shape around the coil part by using the connection part as one operation end part; Unit elastomers; A guide pin formed on one of both ends of the spring and at both operating ends of the unit elastic body including the connection part; And A guide rail extending to the other one of the two operation ends along a path in which the guide pin is moved; provided with the connection part as a support shaft during the slide movement of the device, and both ends of the spring move in an arc along the guide rail. Slide hinge provided with a guide rail, characterized in that to perform the elastic movement. The method of manufacturing a slide hinge according to any one of claims 1 to 3, wherein the unit elastic body, the guide pin and the guide rail are integrally formed by insert injection, and the pre-load is completed by coupling the guide pin to the guide rail. Method of manufacturing a slide hinge having a guide rail, characterized in that. The method of claim 3, wherein the unit elastic body is wound around the end in the same plane in the inward direction and reaches the center extending in different layers to form a first coil portion, and is formed from the first coil portion to form a connecting portion And a second coil part formed in a reverse order to the process of forming the first coil part at a position diagonally symmetrical with the first coil part about the connection part, and both ends of the first coil part and the second coil part. From the inside to face in opposite directions, The guide rail has a shape in which two circular arcs wound around the first coil part and the second coil part are symmetrical in a 'S' shape between the first coil part and the second coil part. The connecting portion and the guide rail is a slide hinge provided with a guide rail, characterized in that the cross structure of the letter 'X'. The method of claim 3, wherein the unit elastic body is wound around the end in the same plane in the inward direction and reaches the center extending in different layers to form a first coil portion, and is formed from the first coil portion to form a connecting portion And a second coil part formed in a reverse order to the forming process of the first coil part at intervals of the connection part length, and both ends thereof are formed to face each other in the same direction, being separated from the first coil part and the second coil part. , The guide rail has a shape in which two arcs surrounding the first coil part and the second coil part are arranged between both ends of the first coil part and the second coil part in a '3' shape. And the connecting portion and the guide rail overlap in the same direction.

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