KR102000612B1 - Supporting Module for a connect joint and Electronic Device including the same, and assembly and disassembly method thereof - Google Patents

Abstract

The present disclosure relates to connector connector support, and more particularly, to a connector connector assembly that includes a boss portion including at least one protrusion, a connector connection portion disposed in an area adjacent to the boss portion, A connector connecting portion supporting module including a bracket to be coupled to the connecting portion, an electronic device including the same, and a structure of a method of assembling and disassembling the electronic device.

Description

TECHNICAL FIELD [0001] The present invention relates to a connector connecting portion supporting module and an electronic device including the same, a method of assembling and disassembling the electronic device,

The present disclosure relates to a connector connection structure of an electronic device.

In recent years, electronic devices are supporting the combined use of various user functions based on the development of hardware technology. The electronic device can reproduce the stored information. The electronic device also forms a communication channel with the external electronic device or the server device, and can receive and output information provided by the external electronic device or the server device.

The electronic device may be connected to the external electronic device via a cable. At this time, the electronic device may have a structure for cable connection. Continuous physical force can be applied to the cable connection structure during cable removal. As a result, breakage may occur in the cable connection structure of the electronic device.

SUMMARY OF THE INVENTION Accordingly, the present disclosure is directed to a connector connection support module having a more improved connector connection structure and an electronic apparatus including the same.

The present disclosure relates to a connector connector including a boss portion including at least one protrusion, a connector connection portion disposed in an area adjacent to the boss portion, and a bracket that is disposed to cover at least a portion of the connector connection portion and is fastened to the boss portion. The configuration of the module is started.

The present disclosure also relates to a connector comprising: a boss portion including at least one protrusion; a connector connection portion disposed in an area adjacent to the boss portion; a bracket disposed to cover at least a part of the connector connection portion and to be coupled to the boss portion; An antenna carrier or a rear frame disposed to surround the bracket; and a screw threaded through one side of the antenna carrier or the rear frame and fastened to the threaded groove of the boss portion Fig.

The present disclosure also relates to an electronic device comprising an operation of disposing at least one boss portion, an operation of disposing a connector connection portion in an adjacent region of the boss portion, and an operation of fastening the bracket to the boss portion while covering at least a part of the connector connection portion The structure of the assembly method is disclosed.

The present disclosure also relates to an operation of disposing at least one boss portion, an operation of disposing a connector connection portion in an adjacent region of the boss portion, an operation of hooking the bracket to a protruding portion provided in the boss portion while covering at least a part of the connector connection portion And removing the wing portion of the bracket from the projecting portion of the boss portion by using the removal hole formed in the bracket.

As described above, according to the connector connection supporting module of the present disclosure and the electronic apparatus including the same, the present disclosure can provide an improved connector connection structure.

For example, the present disclosure may enhance the strength of the connector connection arrangement for USB charging terminals, cables, or other external device connections.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 illustrates some configurations of an electronic device including a connector connection support module according to an embodiment of the present disclosure;
Fig. 2 is a more detailed view of a front mechanism part of the electronic device configuration of Fig. 1; Fig.
FIG. 3A and FIG. 3B are views showing a hardware board module configuration among the electronic device configurations of FIG. 1 in more detail;
4A and 4B are views showing a combination of a front mechanism unit and a hardware substrate module.
Figs. 5A to 5C are views showing the bracket structure of the electronic apparatus of Fig. 1 in more detail. Fig.
Figs. 6A to 6F are views for explaining the boss portion and related portions of the front mechanism portion of Fig. 1 in more detail. Fig.
Figs. 7A and 7B are views showing the shape in which the bracket is engaged with the boss portion while covering the connector connection portion in more detail. Fig.
8 illustrates another form of an electronic device to which the connector connection support module of the present disclosure is applied;
9 is a view for explaining a method of assembling a connector connecting portion supporting module according to an embodiment of the present disclosure;
10 is a view for explaining a disassembling method of a connector connecting portion supporting module according to an embodiment of the present disclosure;

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

In describing the embodiments, descriptions of techniques which are well known in the art to which this disclosure belongs and which are not directly related to the present disclosure are omitted. In addition, detailed description of components having substantially the same configuration and function will be omitted.

For the same reason, some of the elements in the accompanying drawings are exaggerated, omitted, or schematically shown, and the size of each element does not entirely reflect the actual size. Accordingly, the present disclosure is not limited by the relative size or spacing depicted in the accompanying drawings.

In the following description, the connector connection supporting module of the present disclosure can be understood as a form including a boss portion provided in the form of a protrusion, a connector connecting portion disposed between the boss portion, and a bracket arranged to cover the connector connecting portion. Some structures of the front mechanism portion in which the boss portion can be additionally provided, a hardware board module in which the connector connecting portion is disposed, and the like may be additional components of the connector connecting portion supporting module.

As described below, the boss portion is described as a front mechanism portion. However, the boss portion may be changed to a different region from a certain region of the front mechanism portion, or may be formed in a structure other than the front mechanism portion . Or the boss portion may be disposed in a form independent of the front mechanism portion and coupled to the front mechanism portion or may be coupled to another structure of the electronic device.

Similarly, the connector connection portion may be directly arranged in the front mechanism portion in which the circuit line is formed, or may be designed in a form in which the circuit line is directly arranged in the formed boss portion. As a result, since the boss portion and the connector connecting portion constitute the electronic device, the connector connecting portion supporting module in the present disclosure should be understood as including the boss portion, the connector connecting portion, and the bracket, The description of the present disclosure should not be limited to a variable form.

In addition, in addition to the above-described configurations, the electronic device employing the connector connection support structure of the present disclosure may additionally employ a pushing structure of the bracket on the basis of the antenna carrier or the rear frame in terms of reinforcing the bracket supporting shape I will explain. However, the configuration of the electronic device applied to the present disclosure is not limited to the configurations described below. That is, an electronic device in which the connector connection supporting structure mentioned in this disclosure can be employed, a structure in which an antenna carrier or a rear frame is not separately provided or only a part is to be understood as an electronic device to which the present disclosure can be applied.

1 is an exploded perspective view of some of the configurations of an electronic device to which a connector connection supporting module according to an embodiment of the present disclosure is applied. FIG. 2 is a front view, a left and right side view, a top view, and a perspective view of the front mechanism of the present invention, and FIGS. 3a and 3b are a front view, a left and right side view, a top view, and a perspective view of a hardware substrate module. 4A and 4B are views showing an assembled state of some of the electronic device configurations.

Referring to FIG. 1, structures related to connector connector support in the electronic device 10 of the present disclosure may include a portion of the front mechanism portion 500, a portion of the hardware substrate module 400. The electronic device 10 may further include a display module disposed on the front surface of the front mechanism unit 500, a rear frame covering the top of the hardware substrate module 400, and a battery cover.

The front mechanism unit 500 may have a circular or polygonal shape, for example, a rectangular shape. The front mechanism part 500 may be provided with a plastic or metal structure. Also, at least a part of the front mechanism unit 500 may be made of a non-metal material such as wood, rubber, reinforced rubber, or the like. The front mechanism part 500 includes a rectangular upper end part 510 and a lower end part 520 as shown in FIGS. 1, 2, 4A and 4B, a side part connecting upper and lower ends of the upper and lower ends 510 and 520, 530 < / RTI > The central region provided according to the arrangement of the upper end portion 510, the lower end portion 520 and the side portions 530 may be a battery mounting portion 513 on which the battery can be seated. The upper portion 510 may include various structures such as a camera mount portion 511 on which a camera module can be mounted and a speaker mount portion 512 on which speakers can be mounted. The side portion 530 and the lower end portion 520 of the front mechanism unit 500 can seat the hardware substrate module 400. The shape of the front mechanism unit 500 can be variously changed according to the designer's intention.

The lower end portion 520 may include an area where the connector connection portion 200 of the hardware substrate module 400 is disposed. To this end, the lower end 520 may have a shape in which the area where the hardware substrate module 400 is seated is engraved than the surrounding area. The lower end portion 520 may be provided with a boss portion 300 around a region where the connector connection portion 200 is disposed.

The boss unit 300 may be provided at various positions depending on the arrangement position of the connector connection unit 200. For example, the boss unit 300 may be disposed at the edge region of the lower end 520. [ The boss unit 300 may be disposed in the lower edge direction of the lower edge 520. Or the boss unit 300 may be disposed on both side edges of the rim of the lower end 520. [ The boss unit 300 may be provided in a predetermined area of the front mechanism unit 500 according to the area where the connector connection unit 200 is disposed in the hardware board module 400. For example, the boss portion 300 may be disposed in the edge region of the side portion 530. Or the boss portion 300 may be disposed in the edge region of the upper end portion 510. [

The boss unit 300 may include at least one protrusion protruding from the surface of the lower end 520 by a predetermined height. In the drawing, it is shown that two bosses 300 are provided. However, the present disclosure is not limited thereto. That is, the boss unit 300 may be constituted by one protrusion or a plurality of two or more protrusions may be provided if necessary. The boss unit 300 may include a protrusion in a top-closed form. Closed projections can be filled or hollow. The boss unit 300 may include a hole having a female screw hole formed in a downward direction for screw connection. The boss unit 300 may be formed of the same material as the front mechanism unit 500. Or the boss unit 300 may be formed of a metal material.

Referring to FIGS. 1, 3A, and 3B, the hardware board module 400 may include a printed circuit board 410, a connector connector 200, and a bracket 100.

The printed circuit board 410 may be provided with a dielectric. The printed circuit board 410 may include a circuit pattern of a copper foil formed on the dielectric. The printed circuit board 410 may be disposed on the front mechanism part 500. Accordingly, the printed circuit board 410 may be provided in a shape corresponding to the shape of the front mechanism unit 500. For example, the printed circuit board 410 may include a lower substrate that is seated in the lower end 520 and side substrates that rest on the side 530 at opposite edges of the lower substrate. The connector connecting portion 200 may be disposed on the lower substrate. The printed circuit board 410 may include a circuit pattern connected to the connector connection portion 200. The printed circuit board 410 may include at least one groove or hole into which at least a portion of the connector connection portion 200 can be inserted to firmly engage the connector connection portion 200 in the process of disposing the connector connection portion 200.

The connector connection portion 200 may be disposed on the printed circuit board 410. For example, the connector connection portion 200 may be disposed in the edge region of the printed circuit board 410. One side of the connector connection portion 200 may be arranged in alignment with the edge region of the printed circuit board 410. For example, the cross-section of the opening of the connector connection portion 200 may be aligned with the edge of the printed circuit board 410. The connector connection portion 200 may be variously provided depending on the type of the cable terminal to be inserted. The connector connection unit 200 may be made of a metal material for electrical signal or power connection. Or the connector connection part 200 may be formed of at least a part of a metal material to perform electric signal transmission or power transmission to a connected cable terminal. The connector connection portion 200 may be electrically connected to the printed circuit board 410. The connector connection portion 200 may be formed to have a size similar to the outer size of the cable terminal so that the cable terminal to be connected is inserted into the cable terminal. Further, the connector connecting portion 200 may be provided in a tubular shape having an open front and a rear. The connector connection portion 200 may include at least one rail groove 210 to facilitate insertion and removal of cable terminals. For example, the rail groove 210 may be provided in the ceiling area of the connector connection part 200.

The bracket 100 may be provided to surround the outside of the connector connection part 200. The bracket 100 may have an interior similar to the exterior of the connector connection 200. The bracket 100 may be formed in a bent shape so as to surround the outside of the connector connecting portion 200. The bracket 100 may be made of a metal material to maintain rigidity. Alternatively, the bracket 100 may be made of reinforced plastic capable of providing rigidity. The bracket 100 may be made of a material having elasticity.

The structure of the bracket 100 will be described in more detail with reference to FIGS. 5A to 5C.

Figs. 5A to 5C are views showing the bracket structure of the present disclosure in more detail, and show front and rear views, left and right side views, a top and bottom views, and a perspective view, respectively.

5A through 5C, the bracket 100 of the present disclosure may include a lid 110, pillars 130A and 130B, and wings 120A and 120B.

The cover 110 of the separate bracket 100 may be made to have a certain area or less to maximize antenna performance. A wing part 120 is formed around the lid part 110 to serve as a bridge for fastening the lid part 110 to a peripheral structure such as a hook part 310 of the boss part 300, And a connection part 121 is formed in a part thereof. Because the thickness of the bracket 100 is often a constant value in the case of the SUS PRESS, the connection portion 121 is formed of a material, a shape, a position, Depending on the method, various shapes are taken. Here, the bracket 100 may be made of not only stainless steel but also various other materials such as copper, magnesium alloyed aluminum alloy, stainless steel and the like, and reinforced plastic is also applicable

The cover 110 may be formed of a plate having a predetermined thickness and area. The lid portion 110 may have a size similar to that of the upper surface of the connector connection portion 200. Or the cover portion 110 may have a smaller size than the upper surface of the connector connection portion 200. The lid 110 is arranged so as to cover the connector connection part 200 and the rail 111 is provided so that the connector connection part 200 can be more firmly disposed on the printed circuit board 410 and the front mechanism part 500 . The rail 111 may protrude from the upper surface of the lid 110 in a direction to surround the connector connection part 200. In the drawing, two rails 111 are provided at the central portion and two ridges are provided at both edges, but the present disclosure is not limited thereto. That is, the lid portion 110 may have a smaller number of rails 111 or may have a larger number of rails 111. [ The lid part 110 has the rails 111 in a corrugated shape so that a certain elastic force can be applied to the connector connecting part 200. [

The pillars 130A and 130B may include a first pillar 130A vertically connected to one edge of the lid 110 and a second pillar 130B perpendicularly connected to the other edge. The height of the first pillar portion 130A and the second pillar portion 130B may have the same height. The first pillar portion 130A and the second pillar portion 130B may be formed to be larger than the thickness of the connector connection portion 200. [ A portion where the first columnar portion 130A and the second columnar portion 130B are connected to the lid 110 may be rounded. The first pillar portion 130A may be connected to the first wing portion 120A in a direction perpendicular to the first wing portion 120A. The connection portion between the first pillar portion 130A and the first wing portion 120A may be rounded. The second post 130B may be connected to the second wing portion 120B in a vertical direction. The portion connected to the second columnar portion 130B and the second wing portion 120B may also be rounded. The first pillar portion 130A and the second pillar portion 130B may be formed with a step. The lid part 110 and the wing parts 120A and 120B connected to the first and the second column parts 130A and 130B are connected in a curved shape in the stepped regions of the pillars 130A and 130B .

The wing portions 120A and 120B may include a first wing portion 120A connected to the first pillar portion 130A and a second wing portion 120B connected to the second pillar portion 130B. The first wing portion 120A and the second wing portion 120B may have a symmetrical structure with respect to the central vertical line of the lid portion 110. [ The first wing portion 120A includes a first plate member 121A having a predetermined area when being vertically connected to the first column member 130A, first guide members 121A extending from both side edges of the first plate member 121A to a predetermined thickness, The first guide portion 122A, and the first guide portion 122A.

The first latching portion 123A is connected to the first guide portions 122A and includes first latching walls 12A extended from one side of the first guide portions 122A to the front of the first guide portions 122A, And a first connection portion 11A connecting the first engagement walls 12A. The first connecting portion 11A may be disposed at a different height from the first guide portions 122A by the first engaging walls 12A. The first wing portion 120A may be provided with a first boss hole 124A formed by the first plate member 121A, the first guide portions 122A and the first latching portion 123A. At least one first depression hole 125A may be formed in at least one of the first guide portions 122A facing the first boss hole 124A and the first engagement portion 123A. The protrusion included in the boss unit 300 may be inserted into the first recess 125A.

The second wing portion 120B may have the same shape as the first wing portion 120A. For example, the second wing portion 120B may include a second plate member 121B, second guide portions 122B, and a second latching portion 123B. The second wing portion 120B may have a second boss hole 124B formed by the second plate member 121B, the second guide portions 122B, and the second latching portion 123B. At least one second recess 125B may be formed in the periphery of the second boss hole 124B of the second wing portion 120B. At least one of the first wing portion 120A and the second wing portion 120B may be provided with a depression hole. That is, only the first wing portion 120A may have the first minus hole 125A, or only the second wing portion 120B may have the second minus hole 125B. The second boss hole 124B may be provided with a projection included in the boss unit 300. The second latching portion 123B may include the second latching walls 12B and the second connecting portion 11B.

The first wing portion 120A and the second wing portion 120B may be inserted and fixed to the boss portion 300, respectively. In this process, the lid 110 and the pillars 130A and 130B of the bracket 100 enclose the upper and side surfaces of the connector connection part 200, respectively. The bracket 100 can prevent the connector connecting portion 200 from flowing. When the connector connecting part 200 is provisionally installed on the printed circuit board 410 or temporarily installed in the front mechanism part 500 and the devices are moved according to the process, the bracket 100 is configured such that the connector connecting part 200 is connected to the printed circuit board 410, As shown in Fig. Further, the bracket 100 may serve to fix the printed circuit board 410 so that the printed circuit board 410 is not easily detached from the front mechanism unit 500. Further, the wings 120A and 120B of the bracket 100 are provided with the removal holes, so that the bracket 100 can be easily separated from the boss 300 if necessary. Since the engaging portion formed on the bracket 100 is disposed higher than the guide portions by a predetermined height, the boss portion 300 can be formed more easily. Further, the fastening force of the bracket 100 with the boss unit 300 can be improved.

The connection part 121 formed on the bracket 100 and the boss part 300 formed on the peripheral structure may be hooked. Here, the bracket 100 may be made of metal, and the boss 300 may be made of metal. The advantages of hooking between the bracket 100 and the boss portion 300 can provide effects such as strength and waterproofing. In this case, the hooks 310 formed on the hooks 300 may be formed at positions spaced apart from the front surfaces of the hardware board module 400 or the front mechanism 500 by a predetermined height in the forming process. The hook portions 310 and the hook portions 123A and 123B provided on the wing portions 120A and 120B may be properly hooked to the wing portions 120A and 120B The height of the latching portions 123A and 123B can be compensated by adding a three-dimensional forming shape such as an EMBO. Especially, when the mating part is made of metal, it is difficult to join and disassemble. Therefore, an auxiliary shape such as an R shape, a depression hole 125A or 125B for solving such a situation can be further added.

A structure may be provided in which the bracket 100 is fastened to the boss unit 300 without forming a thread groove or a screw hole. Further, the boss unit 300 may further include a screw groove 320 or a screw hole. Boss holes 124A and 124B may be formed in the wing portions 120A and 120B of the bracket 100. [ The boss holes 124A and 124B are formed to have an area larger than the boss portion 300 so that the wings 120A and 120B can be inserted into the boss portion 300. [ When a fastening type BOSS, a revetment, a welding or the like is adopted in addition to the hook fastening method, the bracket 100 can form a shape supporting the fastening method on the wing portions 120A and 120B.

The hook portion 310 of the boss unit 300 may be formed by machining such as injection molding, CASTING and T-CUT and the shape of the connecting portion 121 of the bracket 100 is determined according to the shape thereof. Representative methods include HOOK, BOSS, riveting, fusing, etc., and a structure for implementing this method can be implemented in the boss portion.

This fastening structure can be applied to various HW parts other than the connector included in the electronic device.

6A to 6F are views showing the boss portion according to the embodiment of the present disclosure in more detail.

First, referring to FIG. 6A, the boss unit 300 of the present disclosure may be formed in the front mechanism unit 500. For example, the boss unit 300 may be disposed at the lower end 520 of the front mechanism unit 500. In FIG. 6A, the boss unit 300 has two arranged structures, but the description of the present invention is not limited thereto. That is, the boss unit 300 may be formed of a larger number of protrusions. The boss unit 300 is disposed at the lower end 520 of the front mechanism unit 500. The boss unit 300 may be provided on at least one of the edges of the front mechanism unit 500 . That is, the boss unit 300 may be provided anywhere in the front mechanism unit 500 if the connector can be arranged.

6B through 6E are views showing various shapes of the boss unit 300 in various angles in the technique of the present disclosure. 6B and 6E illustrate a configuration in which the boss portion 300 is not provided with a separate thread groove as an embodiment of the present disclosure. 6C and 6D show a structure in which the screw groove 320 is provided in the boss unit 300 as another embodiment of the present disclosure.

FIG. 6F is an enlarged view of one side of the above-described boss unit 300. FIG.

The boss unit 300 shown in FIG. 6F may be one of a plurality of boss units provided at one side of the lower end of the front mechanism unit 500 described above. The boss unit 300 may be provided to protrude from one surface of the front mechanism unit 500. The boss unit 300 includes a first dome unit 301 having a first surface and protruding from one surface of the front mechanism unit 500 and a second dome unit 302 protruding from the first dome unit 301 .

The first dome part 301 may protrude from the front surface of the front mechanism part 500 with a predetermined surface. The rim of the first dome 301 may correspond to the shape of the boss hole formed in the bracket 100. [ The size of the rim of the first dome 301 may be similar to the size of the boss hole of the bracket 100 in order to firmly fix the bracket 100 to the first dome 301. The wing portion of the interference fit type bracket 100 can be inserted into the first dome portion 301. Meanwhile, when the first dome 301 and the bracket 100 are coupled to each other, a groove may be formed between the rim of the first dome 301 and the wing portion. Accordingly, the operator can release the wing portion of the bracket 100 from the first dome portion 301 by using an apparatus or a hand.

The second dome 302 has a smaller surface than the upper surface of the first dome 301 and may extend vertically at an upper portion of the first dome 301. A screw groove 320 may be formed at the center of the second dome 302 according to the designer's intention or no separate screw groove 320 may be provided. In the perspective view, the screw groove 320 is formed, and in the sectional view, the screw groove 320 is not formed. The second dome portion 302 may have a rectangular cross section. Or the second dome portion 302 may have a circular horizontal section. The hook portion 310 may be provided on a side wall of the second dome portion 302. The hook portion 310 may be formed to protrude horizontally from the side wall of the second dome portion 302. The upper end of the hook portion 310 may be rounded to induce easy insertion when the wing portion of the bracket 100 is inserted. A seating groove 304 may be formed between the first dome portion 301 and the second dome portion 302 by the hook portion 310. The first connection portion 11A may be disposed in the seating groove 304 during the process of inserting the wing portions 120A and 120B of the bracket 100. [

7A and 7B are views showing a boss unit structure in which a bracket is fastened according to an embodiment of the present disclosure. In particular, Figure 7a illustrates a portion of a structure associated with supporting a connector connection of an electronic device employing a boss structure in accordance with one embodiment of the present disclosure, and Figure 7b illustrates a portion of an electronic device employing a boss structure in accordance with another embodiment of the present disclosure And shows some structure related to supporting a connector connection of an electronic device.

7A, when the boss unit 300 is provided on both sides of the lower end of the front mechanism unit 500, the electronic device 10 can be provided with the connector connection unit 200 between the boss units 300. FIG. Further, the bracket 100 can be fastened to the boss unit 300 while being arranged to cover the connector connection part 200. Here, the boss unit 300 according to an embodiment of the present disclosure may be in the form of a screw groove 320. The bracket 100 may include the lid 110 and the pillars 130A and 130B and the wings 120A and 120B as described above with reference to FIGS. 5A to 5C. In particular, bosses 124A and 124B may be formed in the wing portions 120A and 120B. The bosses provided in the wing portions 120A and 120B can be fastened to the boss portion 300 while being disposed to cover the upper surface of the connector connection portion 200 that is the bracket 100. [ In particular, the boss unit 300 is provided with a hook 310 as described above. Accordingly, the hook portion 310 can be hooked to the connecting portion of the wing portions 120A and 120B. Meanwhile, since the first connection part 11A is bent and protruded from the first guide parts 122A of the first wing part 120A, it can be supported by the first guide parts 122A to provide a constant elastic force . As a result, the first connection portion 11A is fastened to the hook portion 310 and is urged in the downward direction by the hook portion 310, and the first connection portion 11A can exert an elastic force in an upward direction. The bracket 100 having such a structure can firmly support the connector connection portion 200 only by the structure of being hooked to the boss portion 300.

The boss unit 300 shown in FIG. 7A may have a structure in which a screw groove 320 is provided as shown in FIG. A screw can be inserted into the screw groove 320. A separate electronic device 10 structure such as a rear frame or a battery cover may be disposed on the bracket 100. At least one of the structures may be fixedly disposed to cover the front mechanism unit 500. [ Then, the threaded structure can be fastened to the boss unit 300 provided in the front mechanism unit 500 while penetrating the rear frame or the battery cover. As a result, one side of the rear frame or one side of the battery cover can press the bracket 100 toward the front mechanism part 500 during the screwing process. Accordingly, the bracket 100 can more firmly support the connector connection portion 200.

In the above description, the screws are coupled to the screw grooves 320 through the rear frame or the battery cover. However, the screws may be directly inserted into the screw grooves 320 without a separate rear frame or a battery cover. In this case, the screw threaded into the threaded groove 320 may be a specially designed screw. For example, the screw threaded into the thread groove 320 may be a screw made by pressing the bracket 100 in the direction of the front mechanism part 500 while being screwed into the thread groove 320. Or an elastic member or a metal member for connecting the screws inserted into the screw grooves 320 provided on both sides of the boss unit 300 may be further provided. An elastic member or a metal member may be fixed to the screw groove 320 of the boss unit 300 by a screw while being disposed on the upper surface of the bracket 100. [

On the other hand, FIG. 7B is a partial configuration of an electronic device 10 employing a boss structure according to another embodiment of the present disclosure. In particular, the structure of the boss unit 300 shown in FIG. 7B may be a shape in which a thread groove is removed. The boss unit 300 is provided with the first dome unit 301 and the second dome unit 302 and the hook unit 310 may be provided on the side of the second dome unit 302 in a direction parallel to the side wall. have. One side of the wing portions 120A and 120B of the bracket 100 may be fixed to the hook portion 310. [ Here, one side of the wing portions may be the first connecting portion 11A or the second connecting portion 11B described above.

8 is a diagram illustrating configurations related to connector connector support in an electronic device configuration according to another embodiment of the present disclosure.

8, an electronic device 10 supporting a connector connection 200 according to another embodiment of the present disclosure may include a portion of the front mechanism 500, for example, a portion where the boss 300 is formed, a printed circuit board 410, A connector connector support module including a bracket 100 and an antenna carrier or rear frame 600 and a screw 700. In the following description, reference numeral 600 denotes an antenna carrier. However, drawing number 600 may also be a rear frame due to layout or design changes.

The connector connection portion supporting module may be defined as including a boss portion 300, a connector connecting portion 200, and a bracket 100. The boss unit 300 may be formed on the printed circuit board 410 in accordance with a change in the design method. However, the boss unit 300 may be formed on the printed circuit board 410 . Or separately form a structure including the boss unit 300 and connect the structure to the front mechanism unit 500. In this case, The connector connection portion 200 is disposed on the printed circuit board 410 in the same form, but the present disclosure is not limited thereto. For example, the connector connection portion 200 may be disposed directly in the front mechanism portion 500, or may be disposed between the corresponding boss portion 300 of the connector connection portion 200 in the process of providing the boss portion 300 as a separate structure. have. Accordingly, the connector connection support module referred to in the description of the present disclosure can be understood in a form that basically includes the boss portion 300, the connector connection portion 200, and the bracket 100, Or may be arranged in a structure provided separately for supporting the connector connection.

The electronic device 10 having such a configuration is arranged such that the bracket 100 is primarily supported on the connector connection portion 200 and the antenna carrier 600 is disposed on the upper surface of the bracket 100, So as to be press-fit. Thus, the electronic device 10 according to another embodiment of the present disclosure may have a high resistance to breakage in the flow of the connector connection 200 and the removal of the connector by providing a composite connector connection 200 support base have.

In the electronic device 10, the boss unit 300 may be disposed at one side edge of the front mechanism unit 500 as described with reference to the drawings. Here, a plurality of bosses 300 may be provided. In particular, at least two bosses may be provided since the connector connection portion 200 is disposed between the plurality of bosses 300. And the bosses 300 may be spaced apart from each other by a distance larger than one side length of the connector connection part 200 for the placement of the connector connection part 200. [ In the present disclosure, two bosses 300 are illustrated. In addition, two bosses 300 may be disposed on both sides of the connector connection portion 200, and a boss portion may be provided on the rear portion of the connector connection portion 200.

When the boss portion is provided at the rear portion of the connector connecting portion 200, the connector can be designed to have higher resistance against the flow or breakage of the connector connecting portion 200 due to the physical force applied while the connector is inserted into the connector connecting portion 200. Since the connector is inserted into the connector connecting portion 200 and a force is applied in a predetermined direction, the connector connecting portion 200 may be detached from the printed circuit board 410 or may be broken. Such detachment or breakage can be minimized when the bracket 100 and the antenna carrier 600-based threaded engagement structure is employed, as in the embodiments of the present disclosure.

The printed circuit board 410 may be arranged with various circuits and elements that support electrical connection with the connector when the connector is inserted into the connector connection 200. [ The printed circuit board 410 may be formed of wood or a dielectric material and may be connected to a main printed circuit board disposed on the top of the front mechanism unit 500. In the case where the antenna carrier 600 is disposed at the lower end of the front mechanism unit 500, a signal pattern electrically connected to the antenna carrier 600 may be provided on the printed circuit board 410. The printed circuit board 410 may transmit signals for antenna operation disposed on the antenna carrier 600 to the main printed circuit board.

The antenna carrier 600 may be provided with an antenna for supporting the communication function of the electronic device 10. The antenna carrier 600 may be made of a non-metallic material such as a plastic material. The antenna carrier 600 according to the embodiment of the present disclosure can support the bracket 100 while being screwed into the thread groove 320 of the boss unit 300 to support one side of the bracket 100. [ To this end, a plurality of screw holes into which the screws 700 can be inserted may be provided in the antenna carrier 600. The substantial structure of the antenna carrier 600 can be variously changed according to the structure of the front mechanism part 500 of the electronic device 10 or the structure of the rear frame. But is not limited to such structure or shape of the antenna carrier 600 in the embodiments of the present disclosure. That is, the initiation antenna carrier 600 may include threaded holes for threaded engagement with the boss portion 300.

The boss unit 300 is provided with a hook 310 protruding in a sidewall direction and the bracket 100 may have a first connection part 11A to be fastened to the hook 310. The bracket 100 shown in FIG. 8 is shown as a lid-like structure slightly different from the structure described above. The bracket 100 may be fastened to the hook portion 310 by providing the first connection portions 11A at both side edges thereof. Accordingly, the central portion of the bracket 100 can press the upper surface of the connector connection portion 200.

In the above description, the antenna carrier 600 has been illustrated. However, as mentioned above, the antenna carrier 600 can be changed to a rear frame, a battery cover, or the like. The battery cover may be of a detachable type or a non-detachable type. In the structure of securing the connector connection portion 200 through the screw connection as in the present disclosure, it may be preferable to apply the battery cover to the non-detachable battery cover because detachment of the battery cover may not be easy. The electronic device 10 in which the battery cover is provided in a non-detachable manner may be the case where the battery is designed as an embedded type.

As described above, the electronic device according to the present embodiment stably secures the connector connecting portion 200 to the front mechanism portion 500, so that the connector connecting portion 200 can be removed from the printed circuit board 410 or the like It can be fixed so as not to be detached. The bracket 100 for fixing the connector connection part 200 can also support the one side of the printed circuit board 410 to be fixed to the front mechanism part 500. In addition, in the structure supporting the screwing of the bracket 100, the boss unit 300 provided in the front mechanism unit 500 and other structures such as the antenna carrier 600, the rear frame or the battery cover can be attached to the front mechanism unit 500 It can be supported to be firmly fixed. This technique of the present disclosure not only prevents component loss during the product manufacturing process, but also increases the rigidity of the finished product, resulting in increased product reliability.

Also, according to the technique of the present disclosure, when the bracket 100 and the boss 300 are fastened together, the bracket 100 can be easily separated by providing the removal hole at one side of the bracket 100. Accordingly, it is possible to provide an easy separation function in the process of complementing or repairing the connector connection unit 200, the front mechanism unit 500, the printed circuit board 410, and the like.

Meanwhile, the boss unit 300 applied in the present disclosure can realize the shape through the mold. Further, the boss unit 300 may be provided with a hook unit 310 by applying a machining process such as T-cutting to generate a UNDERCUT structure. In addition, a three-dimensional forming process such as drawing and EMBO is added to the bracket 100 applied to the present invention to create a first connecting portion 11A, thereby creating a structure capable of being hooked to the hook portion 310 provided in the boss portion 300 can do. Through the above-described fastening of the boss unit 300 and the bracket 100, the electronic device 10 of the present disclosure can support a complete Z-axis fixation regardless of thread engagement.

Meanwhile, the bracket 100 of the present disclosure may be provided in the form of a thin plate material surrounding the connector connection portion 200, so that securing the space around the boss portion 300 of the front mechanism portion 500 can be minimized. Accordingly, the electronic device 10 of the present disclosure is capable of implementing antenna performance in a small and light space, and can also support prevention of connector deviation. Further, since the electronic device 10 employing the bracket 100 of the present disclosure covers the connector connection portion, it is possible to secure the strength against the external impact, and a separate bracket is first assembled by the hook fixing method, The productivity of the apparatus can be increased by reducing the loss of the product due to the detachment of the connector connecting portion. In addition, the electronic device 10 of the present disclosure is provided with a removal hole in a separate bracket, which facilitates disassembly and assembly, thereby providing service improvement.

9 is a view for explaining an electronic device assembling method including a connector connecting portion supporting module in the description related to the connector connecting portion supporting structure according to various embodiments of the present disclosure.

Referring to FIG. 9, the method of assembling an electronic device of the present disclosure includes the operation 901 of providing a boss 300 having at least one protrusion, the operation 903 of placing the connector connection 200 in the vicinity of the boss 300, And 905 operation to fasten the bracket 100 to the boss portion 300 while covering at least a portion, for example, the top portion of the connector connection 200. [ Here, the boss unit 300 may be provided not only with one protrusion but also with a plurality of protrusions. In the various embodiments of the present disclosure, a form with two protrusions is provided, and the technique of the present disclosure is applicable to three or more arranged forms. The boss unit 300 described above may be provided as a part of the front mechanism unit 500. However, as described above, if the boss unit 300 can be provided as a separate structure, it may be formed in other structures such as a printed circuit board 410, a rear frame, an antenna carrier 600, and the like.

Although the boss unit 300 has been described as having a hook for fastening with the bracket 100, the present disclosure is not limited thereto. For example, the boss unit 300 may be provided only in the shape of a protrusion without a separate hook. In correspondence with this, the bracket 100 may be provided with a groove to fix the connector connecting portion 200 while being constrained to the protrusion. The groove may be engaged with the protrusions constituting the boss portion 300 in a snap-fit manner. Here, the boss unit 300 may be provided in the form of a groove, and the bracket 100 may be provided in a protrusion form, but may be coupled in the same type of snap-fit manner. Any one of the bracket 100 and the boss 300 may be formed with a tongue button groove in any one of the boss 300 and the bracket 100. [

In order to easily separate the bracket 100 from the boss unit 300 when the bracket 100 and the boss unit 300 are coupled with each other in a tapping manner, the edge of the wing of the bracket 100 is engaged with the boss unit 300 So that lifting can occur. For example, the edge of the wing portion of the bracket 100 may be stepped. Accordingly, when the bracket 100 is to be disassembled after the bracket 100 and the boss 300 are coupled with each other in a tapping manner, the connector connection support module of the present disclosure has a structure in which the bracket 100 is separated from the boss 300, It can be easily inserted by inserting or using the operator's nails.

Further, although the boss unit 300 is formed in a protruding shape and a hook unit is provided at an upper end thereof, the connector connection unit support module of the present disclosure is not limited thereto. That is, the boss unit 300 may be formed in a shape of a hook or a hook of a plate member, which is configured to be spaced apart from the front surface of the front mechanism unit 500 by a predetermined height. In addition, the bracket 100 of the present disclosure may be provided to have a thin plate-like wing portion in which no separate boss hole is formed. Then, the bracket 100 can be inserted into the boss unit 300 by inserting the plate-like wings into the opening of the hook-shaped boss unit 300 and inserting the plate-shaped wings into the boss unit 300. In this process, at least a part of the inner ceiling of the lid part of the bracket 100 is placed on the upper surface of the connector connection part 200 and is contacted with the upper surface of the connector connection part 200 while being inserted into the boss part 300, Can be moved.

As described above, the connector connection supporting module according to the various embodiments of the present disclosure includes a connector connecting portion 200 disposed between the bosses 300, as well as a hook-type fastening structure, and is provided with a snap- The bracket 100 is fastened to the boss unit 300 in various forms such as a sliding fitting method in which a plate or a plate material is inserted after arranging a ring or a plate material at a height spaced from the surface of the boss unit 300. At least a part of the connector connection unit 200 is fixed . In other words, the connector connection support module according to various embodiments of the present disclosure may be provided to be fastened to the boss unit 300 and the bracket 100 by various fitting methods in consideration of productivity and robustness. If the connector connecting portion 200 is disposed between the bosses 300 after being mounted on the hardware board module, the height of the bracket 100 may be set to a height at which the connector connecting portion 200 can be pressed Can be provided.

In addition, the connector connection portion supporting module according to various embodiments of the present disclosure may be provided with a groove for the boss portion 300 to be a rail groove-fitting type, and protrusions may be provided on the wing portion of the bracket 100. The connector connection module support module may be inserted and fixed to the bracket 100 in the boss unit 300 after the protrusion of the bracket 100 is inserted into the rail groove. In order to support the rail groove fitting method, the boss unit 300 is provided with grooves in the longitudinal direction, and one end thereof may be formed to have a width larger than the width of the rail. The upper end of the protrusion of the bracket 100 can be inserted into the groove formed larger than the width of the rail. The protrusion of the bracket 100 may be provided in a form including a cylinder and a sphere connected to a cylinder end. In the process of inserting the bracket 100 into the boss unit 300, a sphere of the protrusion structure of the bracket 100 is inserted into the rail and moved inside the rail, and the cylinder of the protrusion can be moved and fixed from the outside of the rail.

10 is a diagram for explaining an electronic device disassembly method including a connector connection supporting module in a description of a connector connection supporting structure according to various embodiments of the present disclosure;

10, the electronic device disassembly method of the present disclosure includes an operation 1001 for inserting a minus device into a minus hole formed between a bracket 100 and a boss portion 300, And removing the wing portion of the bracket 100 from the protrusion of the boss unit 300 using an operation 1003. The subtracting device may be a separate lever type device or the operator's finger or nail. Or the subtracting device may be a pin set or the like. The structure in which the removal hole is provided can be applied to a state in which the boss unit 300 and the bracket 100 are hooked together.

When the boss unit 300 and the bracket 100 are fastened together by the tapping method, the above-described pulling-out apparatus is constructed so that the stepped portion of the bracket 100, which is provided between the boss unit 300 and the bracket 100, As shown in FIG. Then, the bracket 100 fastened by the tapping method can be taken out from the boss unit 300 by the pressing force by the lever principle at the stepped portion.

In addition, in the case where the connector connecting portion supporting module of the present disclosure employs a fastening method in which the wing portion of the bracket 100 is pushed into a hook-shaped gap or a rail groove fitting method, the worker does not need to remove the bracket 100 The bracket 100 can be disengaged from the boss unit 300 by pushing the bracket 100 in the opposite direction. At this time, the bracket 100 can be separated from the boss unit 300 in accordance with the physical force in the opposite direction of the coupling applied to the columnar part of the bracket 100, the side surface of the wing, or the side surface of the upper surface.

Meanwhile, the above-described electronic device 10 may further include various additional modules depending on its providing mode. That is, the electronic device 10 may be a short distance communication module for short distance communication in the case of a communication electronic device, an interface for data transmission / reception by a wired communication method or a wireless communication method of the electronic device 10, An Internet communication module for performing a function of receiving a digital broadcasting signal, and a digital broadcasting module for performing a digital broadcasting receiving and reproducing function. These components can not be enumerated because of a wide variety of variations depending on the convergence trend of the digital device, but it is also possible that components having the same level as the above-mentioned components are further included in the device have. It goes without saying that the electronic device 10 of the present disclosure may be excluded from the specific configurations in the above configuration or may be replaced with other configurations in accordance with the provision mode thereof. Which will be readily apparent to those skilled in the art.

Also, the electronic device 10 according to an embodiment of the present disclosure may include, for example, the electronic device 10 may be any mobile electronic device that operates based on communication protocols corresponding to various communication systems Mobile communication terminals, a portable multimedia player (PMP), a digital broadcast player, a PDA (Personal Digital Assistant), a music player (e.g., an MP3 player), a portable game terminal, a smart phone, ) And handheld PCs, multimedia and application devices therefor.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the same is by way of illustration and example only and is not intended to be exhaustive or to limit the scope of the invention. , And is not intended to limit the scope of the present disclosure. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present disclosure are possible in the exemplary embodiments disclosed herein.

10: Electronic device 100: Bracket
200: connector connection part 300: boss part
400: hardware substrate module 500: front mechanism part
600: Antenna carrier or rear frame 700: Screw

Claims (20)

A boss portion including at least one projection;
A connector connecting portion disposed in an area adjacent to the boss portion;
And a bracket arranged to cover at least a part of the connector connection portion and to be coupled to the boss portion,
Wherein the bracket supports the connector connection portion,
And an upper surface of the bracket is screwed into a threaded groove of the boss portion so that an antenna carrier presses the bracket. The method according to claim 1,
The bracket
A lid part covering at least a part of the connector connection part;
Pillars supporting the lid;
And a wing portion connected to the pillar portions and coupled to the boss portion. 3. The method of claim 2,
The wing
A boss hole into which the boss portion is inserted;
And a hook portion hooked to a hook portion provided at one side of the boss portion. The method of claim 3,
The wing
And a removal hole provided in the boss hole peripheral region. The method according to claim 1,
And at least one of the boss portion and the bracket is made of a metal material. The method according to claim 1,
Wherein one of the boss portion and the bracket includes a snap-fit groove, and the other includes a snap-fit projection. The method according to claim 6,
The bracket
And a step portion in which an edge region is arranged to be lifted from the boss portion. The method according to claim 1,
The boss portion
And a groove in the longitudinal direction corresponding to the rail groove fitting method,
The bracket
And an upper portion into which the rail groove is partially inserted, and a column portion disposed outside the rail groove. The method according to claim 1,
The boss portion
And is provided in the form of a hook,
The bracket
And a wing portion that covers at least a portion of the connector connection portion and is slidably coupled to the gap of the hook-shaped boss portion according to a physical force in a predetermined direction. A boss portion including at least one projection;
A connector connecting portion disposed in an area adjacent to the boss portion;
A bracket that covers at least a part of the connector connection portion and is coupled to the boss portion to support the connector connection portion;
A screw groove provided at the center of the projection of the boss portion in the form of a female thread;
An antenna carrier surrounding the bracket and arranged to support the bracket;
And a screw penetrating through one side of the antenna carrier and fastened to the threaded groove of the boss portion to press the bracket. 11. The method of claim 10,
And a front mechanism part or a hardware substrate module in which the boss part is formed. 11. The method of claim 10,
And a hardware substrate module or a front mechanism portion in which the connector connecting portion is disposed. 11. The method of claim 10,
The connector connecting portion
An electronic device that is a USB connector connection part. 11. The method of claim 10,
Wherein one of the boss portion and the bracket includes a snap button groove and the other includes a snap button projection,
The bracket
And a stepped portion arranged to be lifted from the boss portion in an edge region. 11. The method of claim 10,
The boss portion
And a groove in the longitudinal direction corresponding to the rail groove fitting method,
The bracket
And an upper portion into which a part is inserted into the inside of the rail groove, and a column portion disposed outside the rail groove. 11. The method of claim 10,
The boss portion
And is provided in the form of a hook,
The bracket
And a wing portion that covers at least a part of the connector connecting portion and is engaged with the gap of the hook-shaped boss portion in accordance with a physical force in a predetermined direction. delete delete delete delete

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