KR101067346B1 - Slide type terminal spring module - Google Patents

Abstract

It is an object of the present invention to provide a spring module for a sliding terminal, the configuration of the present invention is a slide body is installed to open and close in the longitudinal direction from the main body, the slide piece 10 and the coupled to the slide body In the fixed type 20 coupled to the main body is connected to the spring module, the slide type terminal configured to be opened by the spring module to be drawn out to one side of the main body or to be stored back into the main body, A first lever 30 rotatably connected to the slide piece 10 at one end is rotatably provided, and a second lever 40 connected to the fixed piece 20 to be rotatable at the other end. Is bent and molded into a shape continuously connected to the spring housing 50 provided with the jig and the jig, It Built-in gong 50, and both end side characterized in that it comprises a spring 60 disposed between the inner end of the first lever 30 and second lever 40.

1st lever, 2nd lever, spring housing, spring, straight bend, curved bend

Description

Spring module for sliding terminal {Slide type terminal spring module}

The present invention relates to a spring module for a sliding terminal, and more particularly to a spring module for a sliding terminal having a simple structure that contains relatively few components.

As personalization of portable wireless terminals is becoming more common, terminals having various additional functions and designs are being released to meet the needs of users in addition to the basic functions of talking with the other party. Such wireless terminals have been developed from general bar type terminals to flip type terminals, flip up type terminals, and folder type terminals.

Recently, a slide type terminal of a type which slides the slide body by a predetermined length in the longitudinal direction of the main body with one hand has become mainstream. Such a slide type terminal is roughly divided 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 an LCD screen, 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 open and closed states of the slide body of the slide type terminal. 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 is usually a slide piece coupled to the slide body, a fixed piece 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.

At this time, as an example of a spring module, a coil spring is built in the spring housing, and the coil spring is supported by a wire connected to a pair of lever inner ends, and both ends of the spring housing have hinge portions on the slide piece and the fixed piece, respectively. There is a structure having a pair of levers connected to the center.

When the operating principle of the spring module of the above structure is outlined, in the state where the slide body is opened to one side of the main body, two levers protrude to both ends of the spring housing by the force of the coil spring, and the slide body is pushed to one side of the main body. It can remain open, and at the moment when the slide body is pushed back into the main body, the two levers are pushed inward from both ends of the spring housing, the spring is compressed, and beyond the inflection point the slide body is completely back into the main body. In the stored state, the two levers are unfolded again by the force of the coil spring, and the slide body can be folded back into the main body. Of course, even when the slide body is pulled out of the main body and opened when the slide body is folded, the two levers are pushed into the spring housing and the coil spring is compressed and the two levers are opened when the inflection point is crossed. The force of the coil spring allows the slide body to be pulled out back into the main body to remain open.

In addition to the above-mentioned spring module which keeps the slide body of the terminal open or the slide body closed by the operation of the spring and the two levers at the moment when the slide body is pulled out or pushed back into the main body as described above. Various spring modules have been released and used.

However, in the spring module employed in the conventional slide type terminal, the conventional slide unit has a relatively large number of parts and a complicated structure, which leads to a problem in that workability is lowered and the yield is lowered, and the thickness thereof becomes relatively thick. There are many insufficiencies to meet the trend of slimming terminals.

The present invention has been made in order to solve the above problems, the object of the present invention is relatively low in number of components compared to the prior art and simple in structure, as well as excellent assembly properties and to improve productivity It is to provide a spring module for a sliding terminal.

According to the present invention for solving the above problems, 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 coupled to the slide body and the fixed piece coupled to the main body And a slide type terminal configured to be pulled out to one side of the main body and opened or received back by the spring module by the spring module, the first lever being rotatably connected to the slide piece at one end thereof. And a spring housing having a second lever connected to the fixed piece so as to be rotatable relative to the fixing piece, and being bent and formed into a shape continuously connected to the jig jag, the other end being built in the spring housing. The side is between the inner end of the first lever and the second lever The spring module is provided for the slide type terminal, characterized in that configured to include a spring arrangement.

According to the present invention, since the spring, which is a main component, forms a structure that is continuously bent in a zigzag shape, and only a spring molded in such a zigzag shape is employed, there is an advantage that the structure is simplified as compared to the conventional art. Due to the simplicity, there are relatively few components, the workability in the actual production site is improved, and the yield is also improved.

In addition, since the present invention uses only a jig-zag-shaped spring molded from a thin elastic wire, its thickness is slimmer than in the prior art, and since the thickness is slimmer, the thickness of the terminal is gradually slimmer. We can meet.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Figure 1 is a plan view of the present invention, Figure 2 is a plan view showing the internal structure of Figure 1, Figure 3 is an external perspective view of the present invention, Figure 4 is a perspective view of a spring which is the main part of the present invention, Figures 5 to 7 of the present invention This diagram shows the operating state. Referring to this, in the present invention, the first lever 30 having one end connected to the fixing piece 20 coupled to the main body, and the second lever 40 having one end connected to the slide piece 10 coupled to the slide body. ), A spring housing 50 in which the first lever 30 and the second lever 40 are rotatably coupled to both ends thereof, and a zigzag spring 60 embedded in the spring housing 50. do.

A slide type terminal such as a slide type mobile phone is a type in which the slide body is pulled out in the longitudinal direction from the main body, and the fixed piece 20 is coupled to the main body, and the slide piece 10 is coupled to the slide body, Since the slide piece 10 is pulled out in the slide direction along the longitudinal direction of 20), the slide body is pulled out from the main body in the longitudinal direction to be opened, and is slidably stored in the main body to be in a closed state.

At this time, one end of the first lever 30 is connected to the fixing piece 20 coupled to the main body via the hinge portion 30a, and the other end side of the first lever 30 is one end of the spring housing 50. It is slidably coupled to the length in the longitudinal direction, so that the first lever 30 can be projected from one end of the spring housing 50. A spring coupling groove 32 is formed at the other end (ie, the inner end) of the first lever 30, and the spring coupling groove 32 is based on a center line crossing the thickness direction of the first lever 30. It is composed of a triangular groove shape having an inclined portion that is symmetrical. Guide protrusions 34 are provided on the upper and lower surfaces of the other end side of the first lever 30, and the thickness of the guide protrusion 34 gradually decreases from one end side of the first lever 30 toward the other end side. The inclined surface 34a is provided.

In addition, one end of the second lever 40 is connected to the slide piece 10 coupled to the slide body via the hinge portion 40a, and the other end side of the second lever 40 is the other end of the spring housing 50. Slidably coupled to the end in the longitudinal direction, the second lever 40 can be projected from the other end of the spring housing 50. A spring engaging groove 42 is formed at the other end of the second lever 40 (that is, the inner end), and the spring engaging groove 42 is based on the center line crossing the thickness direction of the second lever 40. It consists of a triangular groove shape having an inclined portion symmetrical. Guide protrusions 34 and 44 are provided on the upper and lower surfaces of the other end side of the second lever 40, and the front end portions of the guide protrusions 34 and 44 gradually move from one end side of the second lever 40 to the other end side. The inclined surfaces 34a and 44a, which become thin, are provided.

The spring housing 50 is formed in a substantially rectangular thin plate shape, the inside of the spring housing 50, the spring housing 50 is a pair of square grooves based on the partition wall formed to extend in the longitudinal direction in the inner middle portion. A spring accommodating groove 54 is formed. The other end side (ie, inner end) of the first lever 30 and the second lever 40 is slidably coupled to the two spring receiving grooves 54 of the spring housing 50, respectively, and the first lever The 30 and the second lever 40 may be sunk at both ends of the spring housing 50 having a substantially rectangular plate shape.

Each spring receiving groove 54 in the spring housing 50 has a spring 60 continuously formed in a zigzag shape. The spring 60 is bent and molded into a zigzag shape using an elastic wire. Specifically, the spring 60 has a plurality of straight bent portions 62 are arranged in parallel with each other, the curved portion bent alternately on one end side and the other end side of the straight bent portion 62 ( 64) is composed of a zigzag shape of a continuous form.

As such, the spring 60 bent and formed into a zigzag shape is embedded in each spring receiving groove 54 of the spring housing 50, and both ends of the spring 60 are provided with the first lever 30 and the second lever 40. ) Is disposed between the other end side (that is, the end side embedded in the spring housing 50). The other end of the first lever 30 is formed with the inner spring recessed groove 32 is formed in the concave shape, the other end of the second lever 40 is formed with the inner spring recessed groove 42, Both ends of the zig-zag-shaped spring 60 are engaged in a state in which they enter the other end side of the first lever 30 and the second lever 40.

Therefore, the state in which the first lever 30 and the second lever 40 extend out from both ends of the spring housing 50 is maintained by the elastic force of the spring 60, and the first lever 30 and the second When the lever 40 is pushed inward from both ends of the spring housing 50, the spring 60 is pressed to exert elastic force on the first lever 30 and the second lever 40. At this time, the spring 60 has a zigzag shape in which a plurality of linear bent portions 62 are arranged in parallel with each other and the curved bent portions 64 are alternately connected to one end side and the other end side of the linear bent portion 62. When the first lever 30 and the second lever 40 is pressed into the spring housing 50, the linear bending portion 62 of the spring 60 is compressed in a direction facing each other and The curved bent portion 64 is in a state in which the elastic force is applied to the first lever 30 and the second lever 40 by the force to be opened.

The operation of the present invention in this configuration will be described with reference to Figs. In FIG. 5, the slide piece 10 coupled to the slide body is advanced from the fixed piece 20 coupled to the main body of the slide type terminal so that the slide body is drawn out to one side of the main body (ie, the terminal is open). Shows that

In the state of FIG. 5, when the terminal user pushes the slide body back into the main body by hand, as shown in FIG. 6, the first lever 30 and the second lever 40 are spring housings 50. Inwardly, the spring 60 disposed between the first lever 30 and the second lever 40 is pressed in such a state that the elastic force can be applied. As described above, the first lever 30 and the second lever (by the force that the linear bent portion 62 of the spring 60 is compressed in the direction facing each other and the force that the curved bent portion 64 unfolds) 40) can be in a state that acts on the elasticity. At the same time, the first lever 30 and the second lever 40 are rotated together with the spring housing 50 around the hinge portions 30a and 40a at one end.

When the terminal user continuously pushes the slide body into the main body in the state of FIG. 6, the first lever 30, the second lever 40, and the spring housing 50 are rotated to pass through the inflection point and are compressed. 60 is restored to its original state to operate the first lever 30 and the second lever 40 to protrude from both ends of the spring housing 50 at the same time by its elastic force. At the same time, the first lever 30 and the second lever 40 are rotated together with the spring housing 50 around the hinge portions 30a and 40a at one end thereof, and are thus rotated to a position symmetrical with the state of FIG. 5. By the force of the spring 60, the slide body can be held in the state in which the slide body is received inside (ie, the terminal is closed).

Therefore, the present invention has the advantage that the structure is simplified because only the spring 60 bent in a zigzag shape compared to the conventional structure having a coil spring and a wire for supporting it so as not to be twisted, Due to the simplicity of the structure, there are advantages that relatively few components are included, workability in the actual production site is improved, and the yield is also increased. In addition, since only the zig-zag-shaped spring 60 formed of a thin elastic wire is used, its thickness is slimmer than in the prior art, and thus, the thickness of the terminal is gradually slimmer as the thickness of the terminal becomes slimmer. I can meet it.

In addition, a spring coupling groove 32 is formed at the other end of the first lever 30 (that is, the inner end) to be in contact with one end of the spring 60, and the spring coupling groove 32 of the first lever 30 is formed. Since it is configured as a triangular groove shape having an inclined portion symmetrical with respect to the center line intersecting the thickness direction, there is an effect that one end side of the spring 60 can be stably supported at the correct position without being displaced.

In addition, a spring coupling groove 42 is formed at the other end of the second lever 40 (ie, the inner end) to be in contact with one end of the spring 60, and the spring coupling groove 42 of the second lever 40 is formed. Figure 3 also has a triangular groove shape having an inclined portion that is symmetrical with respect to the centerline crossing the thickness direction, thereby producing the same effect as described above.

In addition, the spring housing 50 has a pair of guide slots 56 extending in the longitudinal direction, respectively, on both upper and lower end positions, and the guide slots 56 protrude on the upper and lower surfaces of the first lever 30. Since the guide protrusion 44 formed on the upper and lower surfaces of the protrusion 34 and the second lever 40 is slidably coupled, the first lever 30 and the second lever when the slide body of the terminal is slid along the main body. The 40 can be smoothly moved in and out without being displaced by the mutually coupled supporting force of the guide slot 56 and the guide protrusions 34 and 44, which means that the operational reliability can be increased. .

Further, inclined surfaces 34a and 44a are gradually formed at the tip end of the guide protrusion 34 of the first lever 30 and the tip end of the guide protrusion 44 of the second lever 40, respectively. The inclined surfaces 34a and 44a smoothly guide the guide protrusions 34 of the first lever 30 and the guide protrusions 44 of the second lever 40 to the guide slots 56 of the spring housing 50. Since it can be combined, the assembly operation can be made easier.

In addition, the spring housing 50 further includes a plurality of air holes 58 formed at an end side opposite to an end at which the first lever 30 and the second lever 40 are removably coupled to each other. When the 30 and the second lever 40 are pressed inward, the air in the spring housing 50 is discharged through the air ball 58, thereby compressing the spring 60 and the first lever 30 and The effect that the storing operation of the second lever 40 is smoother can also be expected.

In the above, the features of the present invention have been described with reference to preferred embodiments, but the contents described in the drawings and the specification are exemplary descriptions of the present invention, which are merely used for the purpose of illustrating the present invention and are described in the meaning limitations and claims. It is not intended to be used to limit the scope of the invention. Therefore, various modifications and equivalent other embodiments can be carried out within the allowable technical spirit of the present invention.

1 is a plan view of the present invention

2 is a plan view showing the internal structure of FIG.

3 is an external perspective view of the present invention

4 is a perspective view of a spring which is a main part of the present invention;

5 to 7 show the operating state of the present invention

Claims (6)

A slide body is installed to open and close in a longitudinal direction from the main body, and a spring module is connected to the slide piece 10 coupled to the slide body and the fixed piece 20 coupled to the main body, thereby operating the spring module. In the slide type terminal configured to maintain the state in which the slide body is drawn out to one side of the main body to be opened or received back into the main body, the slide body is connected to the slide piece 10 relative to one end in a rotatable manner. A spring housing 50 having a first lever 30 to be sunk and a second lever 40 connected to the fixing piece 20 to be rotatable relative to the fixing piece 20 and a zig-zag are continuously provided. It is bent into a shape leading to the embedded in the spring housing 50 and both end sides between the inner end of the first lever 30 and the second lever 40. A spring 60 disposed therein, The spring housing 50 has a pair of square groove-shaped spring accommodating grooves 54 formed on the middle partition 52 formed to extend in the longitudinal direction therein, and the spring 60 is bent in a zigzag shape. ) Is embedded in the spring receiving groove 54, the elastic force is applied to the first lever 30 and the second lever 40, The first lever 30 and the second lever 40 are formed at the inner end of the spring engaging groove 32 in contact with the end side of the spring 60, the spring engaging groove 32, 42 is in the thickness direction Slide spring terminal module characterized in that configured in the shape of a triangular groove having an inclined portion symmetrical with respect to the center line crossing. According to claim 1, wherein the spring 60 is a plurality of straight bent portion 62 is arranged in parallel with each other and the curved bent portion 64 alternately on one end side and the other end side of the linear bent portion 62 It consists of a zigzag shape of a continuous form, the direction in which the straight bent portion 62 face each other when the first lever 30 and the second lever 40 is pressed into the spring housing 50 And a spring force for the slide type terminal, characterized in that to act the elastic force by the force to be compressed and the curved bending portion (64) to open. delete delete According to claim 1, The spring housing 50 has a pair of guide slots 56 extending in the longitudinal direction at the upper and lower both end positions, respectively, the guide slot 56 is formed in the first lever 30 And guide protrusions 34 and 44 protruding from the upper and lower surfaces of the second lever 40 are slidably coupled to each other, and inclined surfaces 34a and 44a having a gradually thinner thickness are formed at the front end portions of the guide protrusions 34 and 44. Spring module for a slide type terminal, characterized in that further formed. According to any one of claims 1, 2 or 5, wherein the spring housing 50 is opposite to the end where the first lever 30 and the second lever 40 is projectably coupled Spring module for a slide type terminal, characterized in that the air hole 58 is formed at the end.

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