KR100986410B1 - Movement spring of sliding hinge module for mobile phone - Google Patents

Abstract

PURPOSE: An operation spring of slide hinge module for mobile communication device is provided to remove fine noise and to be applied to a varying product model as a slipped shape. CONSTITUTION: A guide rail member(40) is fixed and installed to inside of a upper surface of a main body of slide-type mobile communication device. A slide member(50) is fixed and installed inside of a lower surface of a display unit. A operation spring is installed between a fixed projection(41,51) which is formed at fixed position of the guide rail member and a fixed projection which is formed to a fixed position of a slide member. A first wire unit(20) is fixed to one side of a slide hinge module.

Description

Movement spring of sliding hinge module for mobile communication device

The present invention relates to a motion spring applied to a slide hinge module of a slide-type mobile communication device, and more particularly, the wire rod cross section of the motion spring constituted in a spiral shape has a rectangular shape, and the corners have a constant radius. It improves durability by circumferential processing and maximizes the elastic working force, removes the slight noise during spring elastic operation, and slips the shape. It is related to the operating spring of the slide hinge module of the mobile communication device that can be applied to various product models. .

Mobile communication devices such as mobile phones are generally classified into flip-type, folder-type, and sliding-type according to their opening and closing methods.

Among them, the sliding type mobile communication device is configured to be coupled to the upper surface of the main body portion provided with the number key button so as to overlap the display portion, and to open and close the operation by pushing the display portion upward or downward.

In addition, the slide type mobile communication device has a guide rail member fixedly installed inside the upper surface of the main body portion, a slide member is fixedly installed inside the lower surface of the display portion, and the slide member has a structure coupled to slide with respect to the guide rail member. In addition, a separate operation spring is installed between the guide rail member and the slide member, and configured to elastically perform the sliding operation of the display unit with respect to the main body. This is called a slide hinge module for convenience.

Such a slide hinge module has two states in which the operating spring is fully extended when no external force is applied, that is, the slide member is pushed farthest to the upper direction of the guide rail member (open position) or pushed farthest to the downward direction. Keep the home position.

When the slide member moves from the downward direction to the upward direction, or from the upward direction to the downward direction, the slide member is compressed at the center of the guide rail member in the state where the operating spring is opened, and then is opened at the position where the movement is completed again in the opposite direction. Will be.

According to this principle, the display unit of the mobile communication device is pushed up from the main body to be used in an open state, and then the operation of closing the display unit again is performed simply.

Conventionally, various techniques for the slide hinge module have been proposed. In particular, referring to the conventional spiral-shaped operation spring, the coil elastic portion bent in a spiral shape, the first and second wire portions extending from opposite ends of the coil elastic portion, which are disposed inside and outside, and extend in opposite directions, respectively. It is a form.

In addition, when looking at the wire wire of the conventional helical spring, its cross-sectional shape is configured in the form of a circle, a square or a half moon, there is a limit to provide sufficient elastic force or sufficient durability.

That is, in the case of the circular or half-moon shape, the cross-sectional area in the direction in which the elastic force is applied is narrow, and thus a problem in that it is not possible to provide a force according to sufficient elastic force is derived. The wire rod having a rectangular cross section has a relatively high cross-sectional area. The elastic force is provided, but the corners are formed in an angled shape (90 °), so that the force is concentrated on the corners during the elastic operation, such that the edge part is ruptured or the elastic force is remarkably lowered for a long time. This is due to the physical phenomenon that the cross section of the wire rod is rectangular and the force applied by the working spring is not dispersed by the angular portion of the square.

In addition, a wire rod having a rectangular cross section also has a problem in that noise is generated due to friction between the wire rod and the wire rod in the spiral bending portion during elastic operation.

The present invention has been made to solve the above problems, the object of the present invention is to configure the cross-section of the wire rod of the helical spring consisting of a spiral shape, but to improve durability by rounding the corners to a certain radius and At the same time, it maximizes elastic actuation force, removes fine noise during spring elastic actuation, and provides an operating spring of a slide hinge module of a mobile communication device that can be applied to various product models in a slip shape.

The present invention for achieving the above object, the guide rail member is fixedly installed inside the upper surface of the main body of the slide-type mobile communication device, and guided from both sides of the guide rail member to move up and down inside the lower surface of the display unit A slide member is fixedly installed, and the slide member is provided with an operating spring between a fixed protrusion formed at a predetermined position of the guide rail member and a fixed protrusion formed at a predetermined position of the slide member so as to slide elastically with respect to the guide rail member. In the slide hinge module, the operation spring, the elastic portion is bent in the center of the wire rod, the first wire portion is formed in one end of the elastic portion and fixed to one side of the slide hinge module, and the other end of the elastic portion Extended and fixed to the other end of the slide hinge module Consists of a second wire portion, wherein the wire of the operation spring is a leaf spring material having a thin rectangular cross-sectional structure, characterized in that the four corners are formed in a curved shape having a constant radius.

In addition, the wire rod of the operation spring according to the present invention is characterized in that the cross section of the cross section is 0.65mm, length is 0.33mm.

In addition, the curved surface formed in the four corners of the wire rod of the operating spring according to the invention is formed in two, the curved surface radius adjacent to the transverse plane is 0.777mm, the curved surface radius adjacent to the longitudinal surface is characterized in that 0.047mm.

In addition, the elastic portion according to the present invention is configured to be bent in a spiral wire, starting from one side of the bending three times to reduce the radius, and then bent twice to increase the radius to continue to the other side of the upper.

In addition, the end of the first and / or second wire portion according to the invention is characterized in that the fixing member or bent portion is further formed.

The present invention is configured to form a rectangular cross-section of the wire rod of the helical spring consisting of a spiral, the corners are rounded to a certain radius to improve durability and at the same time maximize the elastic actuation force, the spring noise to fine noise It also offers the advantage of being applicable to various product models with its slip shape as well as its elimination.

1 is a front view of an operation spring according to a first embodiment of the present invention;
2 is a plan view of an operating spring according to a first embodiment of the present invention;
3 is an exploded perspective view of an operation spring according to the first embodiment of the present invention;
4 is a cross-sectional view of an operating spring wire according to a first embodiment of the present invention;
5 is an installation state diagram of the operation spring according to the present invention,
6 to 8 is an operating state diagram of the present invention,
9 is a front view of an operation spring according to a second embodiment of the present invention;
10 is a front view of an operating spring according to a third embodiment of the present invention.

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

1 is a front view of an operating spring according to a first embodiment of the present invention, FIG. 2 is a plan view of an operating spring according to a first embodiment of the present invention, and FIG. 3 is a view of an operating spring according to a first embodiment of the present invention. Exploded perspective view.

As shown, the operating spring of the slide hinge module according to the first embodiment of the present invention, the elastic portion 10 is helically bent in the wire rod in the center, and formed at one end of the elastic portion 10 and the slide hinge The first wire portion 20 is fixed to one side of the module, and the second wire portion 30 is formed extending to the other end of the elastic portion 10 and fixed to the other end of the slide hinge module.

Wherein the elastic portion 10 is bent in a spiral wire, but starting from one side of the upper band three times to reduce the radius, and then bends twice so as to increase the radius is configured to continue to the other side of the upper.

In addition, the fixing member 21 is connected and fixed to the end of the first wire portion 20, the fixing member 21 and the fitting hole 22 is inserted into the end of the first wire portion 20, the slide A locking groove 23 coupled to the hinge module is formed.

Various fixing methods, including laser welding, may be used to fix the fixing member 21 to the end of the first wire part 20, and in some cases, may be adhered using a die casting injection or a press method. have.

At the end of the second wire portion 30, a bent portion 31 is formed to be coupled to the slide hinge module.

In addition, the wire rod of the operation spring of the present invention made as described above is a leaf spring material having a thin rectangular cross-sectional structure as shown in Figure 4, the square is formed in a curved shape having a constant radius.

Specifically, the wire rod of the operation spring has a horizontal cross section (a) of 0.65 mm and a vertical cross section (b) of 0.33 mm, and the curved surface formed on the corners is formed in two, and the curved surface radius adjacent to the horizontal surface ( α) is 0.777 mm, and the curved radius β adjacent to the longitudinal plane is 0.047 mm. The horizontal length c until the curved surface starts is 0.5 mm, and the vertical length d is 0.23 mm.

Here, the reason why the cross-sectional corners of the wire rod is formed as a double curved surface having a different radius is because of the curved surface having the radius α, the elastic portion 10 forming the helical banding performs elasticity of contraction and relaxation. When doing so, the wire rod and the wire rod overlap to play a role of preventing the fine noise.

According to the present invention configured as described above, the wire structure of the working spring, that is, the cross section of the wire rod is formed in a rectangular shape, but is formed in a curved form having a constant radius on the corner, first, the cross-sectional area of the wire rod is a circular or half-moon shape It becomes wider, providing force according to sufficient elastic force, and at the same time, the corners are curved at the right angle rather than at right angles, and disperses the cohesive force on the corners during the elastic operation, so that the edge part is ruptured or the elastic force is deteriorated during long-term use. This improves durability by excluding, and provides an advantage of preventing noise by a curved shape having a radius α as described above.

5 shows a configuration in which the operating spring of the present invention is mounted on the guide rail member 40 and the slide member 50 of the slide hinge module.

The fixing member 21 of the first wire portion 20 and the bent portion 31 of the second wire portion 30 of the operating spring of the present invention is a fixing protrusion 41 of the guide rail member 40 and the slide member 50. And 51, respectively, between the fixing member 21 of the first wire part 20 and the fixing protrusion 41 of the guide rail member 40, and the bent part of the second wire part 30. Between the fixing member 51 of the 31 and the slide member 50 may be coupled through a separate connecting member (61, 62).

Thus, the operation of the operation spring connected to the guide rail member 40 and the slide member 50 will be described with reference to FIGS.

First, the fixing member 21 of the first wire part 20 of the operation spring is connected to the fixing protrusion 41 of the guide rail member 40, and the bent part 31 of the second wire part 30 is slid. It is connected to the fixing projection 51 of the member 50.

In the operation spring of the present invention installed as described above, the first and second wire parts 20 and 30 are fully unfolded in a state where no external force is applied, that is, the slide member 50 is most downward in the guide rail member 40. It is in the state of being pushed away (home position) (FIG. 6).

In this state, when the slide member 50 moves upward, the first and second wire parts 20 and 30 are operated as shown in FIG. 7 at the center of the guide rail member 40 in the open state. The spring is pressed.

In this state again, the slide member 50 is opened while moving upward by the elastic force of the first and second wire parts 20 and 30. (FIG. 8)

9 is a front view of an operation spring according to a second embodiment of the present invention.

As shown, the operation spring according to the second embodiment of the present invention,

An elastic portion 10 which spirally bends a wire rod in the center, a first wire portion 20 formed at one end of the elastic portion 10 and fixed to one side of the slide hinge module, and the elastic portion 10 It is formed to extend to the other end of the second wire portion 30 is fixed to the other end of the slide hinge module.

Wherein the elastic portion 10 is bent in a spiral wire, but starting from one side of the upper band three times to reduce the radius, and then bends twice so as to increase the radius is configured to continue to the other side of the upper.

In addition, through-hole fixing members 24 are connected and fixed to ends of the first wire part 20 and the second wire 30, and the fixing member 24 is the first wire part 20 and the second wire. The fitting hole 22 inserted into the end of the 30 and the through hole 25 coupled to the slide hinge module are formed.

In addition, the wire rod of the operation spring according to the second embodiment of the present invention is a plate spring material having a thin rectangular cross-sectional structure, the square is formed in a curved shape having a constant radius.

10 is a front view of an operating spring according to a third embodiment of the present invention.

As shown, the operation spring according to the third embodiment of the present invention,

An elastic portion 10 which spirally bends a wire rod in the center, a first wire portion 20 formed at one end of the elastic portion 10 and fixed to one side of the slide hinge module, and the elastic portion 10 It is formed on the other end of the second wire portion 30 is formed extending to the other end of the slide hinge module, the first wire portion 20 and the end of the second wire portion 30, the fixing member 21 ( 21 is fixed and connected, the fixing member 21, 21 is formed with a fitting hole 22 is inserted into the end of the first wire portion 20, and a locking groove 23 is coupled to the slide hinge module is formed. The wire rod of the operation spring according to the third embodiment of the present invention is a leaf spring material having a thin rectangular cross-sectional structure, and is formed in a curved shape with four corners having a constant radius.

10: elastic portion 20: first wire portion
21: fixing member 22: fitting hole
23: engaging groove 24: through type connecting member
25: through-hole 30: second wire part
31: bend

Claims (5)

A guide rail member is fixedly installed inside the upper surface of the main body of the slide-type mobile communication device, and a slide member which is guided from both sides of the guide rail member and moves up and down is fixedly installed inside the lower surface of the display unit. An operating spring is installed between the fixing protrusion formed at the predetermined position of the guide rail member and the fixing protrusion formed at the predetermined position of the slide member so as to be slidably moved relative to the guide rail member.
The operation spring may include an elastic portion that spirally bends a wire rod in the center, a first wire portion formed at one end of the elastic portion and fixed to one side of the slide hinge module, and formed at the other end of the elastic hinge portion of the slide hinge module. In the slide hinge module is composed of a second wire portion fixed to the other end, the wire of the operation spring is made of a leaf spring material having a thin rectangular cross-sectional structure,
The wire rod of the operation spring is a rectangular cross-sectional structure, the corner is configured in a curved shape having a constant radius,
The curved surface is formed in two, the curved surface radius (α) adjacent to the horizontal surface is 0.777mm, the curved surface radius (β) adjacent to the vertical surface of the slide hinge module for a mobile communication device, characterized in that spring.
The method of claim 1,
The wire rod of the operation spring is an operation spring of the slide hinge module for a mobile communication device, characterized in that the cross section of the cross section is 0.65mm, 0.33mm.
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