KR200458073Y1 - Slide type terminal spring module - Google Patents

Abstract

The construction of the present invention is coupled to the fixed hinge piece 130 installed through the hinge portion 131 to the fixed piece 20 coupled to the main body of the slide type terminal, and coupled to the slide body slides in the longitudinal direction from the main body A slide hinge piece 140 installed on the slide piece 10 via the hinge part 141, a first spring 150 coupled to the fixed hinge piece 130, and the slide hinge piece 140, Coupled to the fixed hinge piece 130 and the slide hinge piece 140 to be parallel to the first spring 150, the slide piece 10 is the elastic force in the innermost position when the slide operation in the fixing piece 20 It comprises a second spring 160 to act, the first spring 150 has an intermediate elastic actuating portion 152 having an elastic wire 152a spread in a symmetrical form and the intermediate elastic actuating portion ( Extending in the form of the elastic wire 152a of the 152 A pair of left and right outer elastic actuators 156 and bending portions 158 outwardly bent in a direction away from a longitudinal center of the slide piece 10 of the slide piece 10 at the ends of the left and right outer elastic actuators 156. It is configured to include, the second spring 160 is an intermediate elastic actuator 162 having an elastic wire 162a is formed in a symmetrical form with each other, and the elastic wire 162a of the intermediate elastic actuator 162 Left and right outer elastic operating portion 166 extending to both sides in the) and the bending portion bent outward in a direction away from the longitudinal center of the slide operation of the slide piece 10 at the end of the left and right outer elastic operating portion 166 And 168.

1st spring, 2nd spring, outer elastic actuating part, bending part, angle, bending stress, minimization

Description

Spring module of slide type terminal {Slide type terminal spring module}

The present invention relates to a spring module of a slide-type terminal, more specifically, to configure a plurality of springs side by side to apply the elastic force, and to improve the structure of the spring in the innermost position receiving the most bending stress among the plurality of springs The present invention relates to a spring module of a slide type terminal, which can improve product reliability.

Recently, a mobile phone has a mainstream slide-type terminal that slides the slide body by a predetermined length in the longitudinal direction of the main body with one hand. Such a slide type terminal is roughly classified into a main body provided with a dial keypad, a slide body slidably coupled to an upper portion of the main body, and a slide body provided with a liquid crystal display, and a slide unit coupling the slide body to the main body by a slide method. .

In addition, various types of spring modules are employed to maintain the slide body of the slide type terminal in the open state and the closed state. The open state of the slide body refers to a state in which the slide body is drawn out in the longitudinal direction of the main body, and the closed state of the slide body refers to a state in which the slide body is folded back in the longitudinal direction of the main body.

The slide unit for maintaining the state in which the slide body is drawn out and the slide body is folded back in the longitudinal direction of the main body, the slide unit is usually coupled to the slide body, the fixed piece is coupled to the main body, and fixed with the slide piece It is divided into spring modules which are connected between the pieces to keep the slide body open and closed.

Springs employed in such slide terminals are fatigue broken due to repeated bending action and bending release action, and these springs are required to have sufficient durability for at least 100,000 operations or more. The product is not listed.

Products that distribute bending stress by placing a plurality of springs side by side are also available.However, in the case of products using the plurality of springs, the most bending stress is applied to the innermost spring that exerts elastic force at the innermost position. Therefore, since the innermost spring breaks frequently, the product reliability, that is, the product life is reduced.

The present invention is to solve the above problems, an object of the present invention is to configure a plurality of springs arranged side by side to apply a spring force when the slide body of the slide-type terminal is operated, acting on a plurality of springs It is designed to minimize bending stress, and in particular, to provide a spring module of a slide type terminal designed to further improve the reliability of the product by minimizing the bending stress acting on the spring exerting elastic force at the innermost position. .

According to the present invention for solving the above problems, the fixed hinge piece 130 installed through the hinge portion 131 to the fixed piece 20 coupled to the main body of the slide-type terminal, and the length in the main body A slide hinge piece 140 installed through a hinge portion 141 on a slide piece 10 coupled to a slide body slid in a direction, and coupled to the fixed hinge piece 130 and the slide hinge piece 140. The slide piece 10 slides on the fixed piece 20 by being coupled to the fixed hinge piece 130 and the slide hinge piece 140 so as to be parallel to the first spring 150 and the first spring 150. It comprises a second spring 160 for applying an elastic force in the innermost position during operation, the first spring 150 has an intermediate elastic actuating portion 152 having elastic wires 152a spread in a symmetrical form with each other And the elastic yarn of the intermediate elastic actuator 152 A pair of left and right outer elastic actuating portions 156 extending in the form of a fish 152a, and away from the longitudinal center of the slide operation of the slide piece 10 at the ends of the left and right outer elastic actuating portions 156. And a bending part 158 bent outward in the direction, and the second spring 160 has an intermediate elastic operation part 162 having elastic wires 162a which are symmetrical with each other, and the intermediate elastic operation. A longitudinal direction in which the left and right outer elastic actuating portion 166 extending from both sides of the elastic wire 162a of the portion 162 and the slide piece 10 of the slide piece 10 at the end of the left and right outer elastic actuating portion 166 are operated. A spring module of an improved slide type terminal is provided, including a bending portion 168 that is bent outward in a direction away from the center.

The present invention has a form in which the left and right outer elastic actuating parts, which are the main parts of the innermost second spring exerting elastic force at the innermost position, have a smaller angle outward than the left and right outer elastic actuating parts of the first spring. Since the bending stress acting on the second spring exerting elastic force in the inner position is minimized, the reliability (ie, extending the life, etc.) of the product can be further improved.

The first spring, which is a main part of the present invention, has an intermediate elastic actuator having elastic wires symmetrically formed to each other, a pair of left and right outer elastic actuators extending in a form that is formed from elastic wires of the intermediate elastic actuator, At the end of the outer elastic actuating part, the bending part bent outward in the direction away from the center line of the slide actuation direction of the slide piece has a basic configuration. When only the first spring is installed to form a plurality of groups, the spring acts the elastic force at the innermost position. It can be broken faster than the spring in the other outer position, there is no room for shortening the product life, in the present invention, as described above, the left and right outer elastic operating portion of the second spring, the left and right elastic wire of the intermediate elastic operating portion Elasticity of the first spring By forming a relatively small relative to the angle formed from the left and right elastic wire of the negative, it is possible to minimize the degree of bending of the main portion of the second spring that is arranged on the innermost side during the opening and closing operation of the slide body and the slide piece of the slide-type terminal, As such, the bending stress can be minimized by minimizing the degree of bending of the innermost second spring that receives the most force. Thus, the effect of improving the reliability of the product can be obtained.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view of the present invention, Figure 2 is a plan view showing an exploded state of the present invention, Figure 3 is a plan view showing an assembled state of Figure 2, Figures 4 to 6 is a plan view showing a use state of the present invention. As shown in the present invention, the slide body is installed to open and close in the longitudinal direction from the main body, the spring module is connected to the slide piece 10 and the fixed piece 20 coupled to the main body, In the slide-type terminal configured to maintain a state in which the slide body is pulled out to one side of the main body and opened or stored back into the main body by the operation of a spring module, the hinge part 131 to the fixing piece 20. Fixed hinge piece 130 and the slide hinge 10, the slide hinge piece 140 connected via the hinge portion 41 connected to the medium, and the fixed hinge piece 130 and the slide hinge piece 140 are connected via Coupled to the first spring 150, the first spring 150 and the fixed hinge piece 130 and the slide hinge piece 140 is coupled to the slide piece 10 when the slide operation in the fixed piece 20 Exert elastic force in the inner position Includes a second spring 160.

The first spring 150 has an intermediate elastic actuating portion 152 having elastic wires 152a that are symmetrical with each other on both ends of the arc-shaped intermediate curved portion 152b in the middle thereof, and the middle elastic actuating portion 152 of the first spring 150. A pair of left and right outer elastic actuating parts 156 extending in a form of being connected to each other by a continuous form through the arc-shaped connecting curved portion 154 to each elastic wire 152a, and each of the left and right outer elastic actuating parts 156. It is a shape having a bending portion 158 bent outward in a direction away from the center of the longitudinal direction in which the slide piece 10 is operated slide at the end.

In addition, the second spring 160 has an intermediate elastic actuating portion 162 having a pair of elastic wires 162a which are symmetrically formed on both ends of the arc-shaped intermediate curved portion 162b in the middle thereof, and the intermediate elastic actuating portion. The left and right outer elastic actuator 166 extending in both sides in a continuous form through the arc-shaped connecting curved portion 164 to each elastic wire 162a of 162, and the end of the left and right outer elastic actuator 166 In the slide piece 10 is a shape having a bending portion 168 that is bent outward in a direction away from the center of the longitudinal direction of the slide operation.

In an embodiment of the present invention, one second spring 160 and two first springs 150 are formed in a side-by-side group to apply elastic force, and the slide body and the slide piece 10 of the slide type terminal are provided. In the slide operation with respect to the fixing piece 20, the second spring 160 is adapted to exert an elastic force in the innermost position.

At this time, the second innermost spring of the first spring 150 and the second spring 160 coupled to the fixed hinge piece 130 and the slide hinge piece 140 and arranged in groups in a plurality of rows parallel to each other ( The angle (a) of the left and right outer elastic actuating parts 166 constituting the 160 from the left and right elastic wires 162a of the middle elastic actuating part 162 is determined by the middle elastic acting part 152 of the first spring 150. In the left and right elastic wires 152a, the left and right outer elastic operation portions 156 are made relatively small compared to the angle b that is opened. See FIG. 3.

The left and right outer elastic actuator 166 of the second spring 160 is bent to be parallel to the vertical center line in the middle of the connecting curved portion 164, and the left and right outer elastic actuator 156 of the first spring 150 is formed. ) Is formed outwardly with respect to the vertical center line of the connection curved portion 154 outward. That is, the left and right outer elastic operating portion 166 of the second spring 160 has a form that is less open to the outside than the left and right outer elastic operating portion 156 of the first spring 150.

At each end of the left and right outer elastic actuating parts 156 of the first spring 150, a bending part 158 bent outward in a direction away from the center line in the longitudinal direction in which the slide piece 10 is operated is provided. At the ends of the left and right outer elastic actuating portions 166 of the two springs 160, the bending portions 168 are bent outward in a direction away from the center line in the longitudinal direction in which the slide pieces 10 slide. The angle c between the outer elastic actuating part 166 and the bending part 168 of the 160 is the angle d between the outer elastic actuating part 156 and the bending part 158 of the first spring 150. It is relatively small compared to See FIG. 3.

Specifically, the angle c between the outer elastic actuator 166 and the bending part 168 of the second spring 160 is in a range of 90 ° or less, and the outer elastic actuator 156 of the first spring 150. And the angle d between the bending portion 158 is an obtuse range of 90 ° or more.

According to the present invention having such a configuration, the left and right outer elastic operating portion 156 of the first spring 150 at the moment when the slide body and the slide piece 10 of the slide-type terminal slides with respect to the fixed piece 20 of the main body. ) And the left and right outer elastic actuators 166 of the second spring 160 bend inward to exert elastic force, and at the same time, the left and right elastic wires 152a and 162a of the respective intermediate elastic actuators 152 and 162 bend inward. While applying elastic force.

In other words, in a state in which the slide piece 10 of the sliding terminal is located at approximately the middle portion of the fixed piece 20, the first spring 150 and the second spring 160 themselves are fixed hinge pieces 130 and the slide. The hinge piece 140 is rotated outward with respect to the hinge parts 131 and 141, and at the same time, the left and right outer elastic actuating parts 156 and 166 of the first spring 150 and the second spring 160 are bent inward, thereby providing elastic force. At the same time, the left and right elastic wires 152a and 162a of the intermediate elastic actuating parts 152 and 162 are bent inward to exert elastic force, and the slide body is completely drawn out to one side of the main body of the slide type terminal (ie, In the open state), the left and right outer elastic actuators 156 and 166 of the first spring 150 and the second spring 160 and the left and right elastic wires 152a and 162a of the intermediate elastic actuators 152 and 162 are unfolded at the same time. While keeping the terminal open .

On the other hand, when the user pushes the slide body completely into the main body by hand, the first spring 150 and the second spring 160 itself together with the fixed hinge piece 130 and the slide hinge piece 140. The hinge parts 131 and 141 are rotated in the opposite inward directions, and at the same time, the left and right outer elastic actuating parts 156 and 166 of the first spring 150 and the second spring 160 are bent inward to act as an elastic force. Each of the elastic wires 152a and 162a of the intermediate elastic operation parts 152 and 162 are bent inward to simultaneously act as an elastic force, and the slide body is completely pushed into one side of the main body of the slide type terminal (ie, the terminal is in a closed state). In addition, the left and right outer elastic actuators 156 and 166 of the first spring 150 and the second spring 160 and the left and right elastic wires 152a and 162a of the intermediate elastic actuators 152 and 162 are simultaneously opened to their original positions. Status It is not.

In the present invention, the bending portions 158 extending in an outward direction away from the slide operating center of the slide piece 10 are provided at the ends of the left and right outer elastic actuating portions 156 of the first spring 150 which are the main portions. The two springs 160 are also provided with bending portions 168 extending in an outward direction away from the slide operating centers of the slide pieces 10, respectively, at the ends of the left and right outer elastic actuating portions 166, and the middle of the first spring 150. For the slide opening and closing operation of the slide-type terminal by the interlocking elastic operation combined the elastic force of the elastic actuator 152, the bending portion 158 and the intermediate elastic actuator 162 and the bending portion 168 of the second spring 160 By increasing the spring 130 elastic force is more effective in increasing the operational reliability.

In addition, in the present invention, the left and right outer elastic operating portion 166, which is the main part of the innermost second spring 160 to apply the elastic force at the innermost position, the left and right outer elastic operating portion 156 of the first spring 150. It has a shape that is less open to the outside compared to), in particular, because it minimizes the bending stress applied to the second spring 160, which exerts an elastic force in the innermost position, thereby increasing the reliability (ie, extending the life) of the product. It can be improved.

The first spring 150, which is a main part of the present invention, includes an intermediate elastic actuator 152 having elastic wires 152a that are symmetrical with each other, and each elastic wire 152a of the intermediate elastic actuator 152. A pair of left and right outer elastic actuating portion 156 extending in the form that is formed in the, and at the end of the left and right outer elastic actuating portion 156 bend outward in a direction away from the center line in the longitudinal direction in which the slide piece 10 slides It has a bent portion 158 in a basic configuration, when only the first spring 150 is installed to form a plurality of groups, the spring acting the elastic force in the innermost position can be broken faster than the spring in the other outer position In this case, there is no room for shortening the product life. In view of the possibility of such a situation in the present invention, the two first springs having the above-described structure ( 150 is arranged side by side, and the combination of the first spring 150 and the second spring 160 by arranging the second spring 160 having a structure different from the first spring 150 in the innermost position. Will be taken.

As described above, the left and right outer elastic actuating portion 166 of the second spring 160 has an angle c formed at the left and right elastic wires 162a of the intermediate elastic actuating portion 162 to the left and right of the first spring 150. The outer elastic actuator 156 is relatively small compared to the angle (d) of the left and right elastic wire 152a of the intermediate elastic actuator 152, thereby opening and closing the slide body and the slide piece 10 of the slide type terminal. During operation, it is possible to minimize the degree of bending of the main portion of the second spring 160 arranged in the innermost side, and thus the left and right outer elastic operating portion 166, which is the portion receiving the most force from the second spring 160 as described above. Since the bending stress can be minimized by minimizing the degree of bending, the innermost second spring 160 is prevented from being broken more quickly than the first spring 150, and thus the reliability (ie, When extending the life) Is to get the effect.

In addition, the angle c between the outer elastic actuating part 166 and the bending part 168 of the second spring 160 is the outer elastic actuating part 156 and the bending part 158 of the first spring 150. Since the angle d is made relatively small, the elastic force acting on the bending portion 168 of the second spring 160 is the same as the elastic force acting on the bending portion 158 of the first spring 150. Since it can be, the elastic force of all the springs (150, 160) can be evenly applied, which is also a factor to ensure the reliability of the product.

On the other hand, the first spring 150 and the second spring 160, the cross-sectional thickness of the first width portion in the longitudinal direction facing the inner surface of the fixing piece 20 and the slide piece 10 is orthogonal to the first width portion It is comprised relatively larger than the cross-sectional thickness of the 2nd width | variety part which is a horizontal direction.

Accordingly, the bending force is applied to the first spring 150 and the second spring 160 by making the thickness of the second width portion in the transverse direction subjected to the bending stress in the spring 50 smaller than the thickness of the first width portion in the longitudinal direction. When acting, it is possible to increase the durability of the spring 50 itself by reducing the breaking stress, it can be expected to maintain the elastic force of the first spring 150 and the second spring 160 itself.

In addition, a locking protrusion 174 or a locking groove 170 is formed at a circumference of an outwardly extending bending portion 158 of the first spring 150 and an outwardly extending bending portion 168 of the second spring 160. Is formed, and the other side fixed hinge piece 130 and the slide hinge piece 140 is formed with a locking groove 170 or a locking protrusion 174, respectively, the first spring 150 and the second spring 160 is It is possible to take a structure that is firmly fixed by the engaging engagement of the locking protrusion 174 and the locking groove 170 in the fixed hinge piece 130 and the slide hinge piece 140.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various permutations, modifications, and changes can be made without departing from the spirit of the present invention. It will be apparent to those who have it.

1 is a perspective view of the present invention;

2 is a plan view showing an exploded state of the present invention

3 is a plan view showing the assembled state of FIG.

4 to 6 is a plan view showing a state of use of the subject innovation

Claims (6)

delete delete delete Fixed hinge piece 130 installed through the hinge portion 131 to the fixed piece 20 coupled to the main body of the slide type terminal, and a slide piece 10 coupled to the slide body slid in the longitudinal direction from the main body 10 Slide hinge piece 140 installed through the hinge portion 141, the first spring 150 coupled to the fixed hinge piece 130 and the slide hinge piece 140, and the first spring ( A second spring coupled to the fixed hinge piece 130 and the slide hinge piece 140 so as to be parallel to 150 so that the slide piece 10 exerts an elastic force at the innermost position when the slide piece 10 is operated on the fixed piece 20. 160, The first spring 150 extends in the form of an intermediate elastic actuating part 152 having elastic wires 152a spread in a symmetrical form with each other, and the elastic spring 152a of the intermediate elastic actuating part 152. A pair of left and right outer elastic actuators 156 and bent portions 158 outwardly bent in a direction away from the longitudinal center of the slide piece 10 of the slide piece 10 at the ends of the left and right outer elastic actuators 156. ), The second spring 160 extends to both sides of the intermediate elastic actuator 162 having the elastic wire 162a spread in a symmetrical form, and the elastic wire 162a of the intermediate elastic actuator 162. And a bending part 168 that is bent outward in a direction away from the longitudinal center of the slide operation of the slide piece 10 at the ends of the left and right outer elastic actuating parts 166 and the left and right outer elastic actuating parts 166. In the spring module of the slide type terminal, The angle c between the outer elastic actuating part 166 and the bending part 168 of the second spring 160 is in a range of 90 ° or less, and the outer elastic actuating part of the first spring 150 ( 156 and the spring portion of the improved sliding type terminal, characterized in that the angle (d) is an obtuse range of 90 ° or more. 5. The hooking portion 174 or the hooking portion of a periphery of the outwardly extending bending portion 158 of the first spring 150 and the outwardly extending bending portion 168 of the second spring 160. Grooves 170 are formed, and the locking piece 170 or the locking protrusion 174 is formed in the opposite fixed hinge piece 130 and the slide hinge piece 140, respectively, the first spring 150 and the second Improved slide-type terminal, characterized in that the spring 160 is firmly fixed to the fixed hinge piece 130 and the slide hinge piece 140 by engaging engagement of the locking protrusion 174 and the locking groove 170 Spring module. According to claim 4 or 5, wherein the first spring 150 and the second spring 160 is the first width portion of the longitudinal direction facing the inner surface of the fixing piece 20 and the slide piece 10 The cross-sectional thickness of the spring module of the improved slide-type terminal, characterized in that configured relatively larger than the cross-sectional thickness of the second width portion in the horizontal direction orthogonal to the first width portion.

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