阅读说明：本技术 集线器与包含其的电子装置 (Concentrator and electronic device comprising same ) 是由 赖志明 高永顺 于 2020-05-06 设计创作，主要内容包括：本发明提供一种集线器与包含其的电子装置,适于供多个线头插设。集线器包含一主体以及一接地隔板。主体包含多个侧墙部以及一底板部。侧墙部连接于底板部并与底板部共同围绕出一容置部。容置部用于容置线头。底板部具有多个正极端子穿孔以及多个负极端子穿孔。接地隔板位于容置部并包含一分隔板部以及多个接地折脚。分隔板部分隔主体的容置部。接地折脚连接于分隔板部的一侧且分别对应于底板部的负极端子穿孔。(The invention provides a hub and an electronic device comprising the same, which are suitable for a plurality of wire ends to be inserted. The hub comprises a main body and a grounding partition plate. The main body comprises a plurality of side wall parts and a bottom plate part. The side wall part is connected with the bottom plate part and surrounds a containing part together with the bottom plate part. The holding part is used for holding the thread end. The bottom plate portion has a plurality of positive terminal through holes and a plurality of negative terminal through holes. The grounding partition plate is positioned in the accommodating part and comprises a partition plate part and a plurality of grounding folding legs. The partition plate portion partitions the accommodating portion of the main body. The grounding bent legs are connected to one side of the partition plate part and respectively correspond to the negative terminal through holes of the bottom plate part.)

1. An electronic device suitable for inserting a plurality of line heads, comprising:

a circuit board including a plurality of positive terminals and a plurality of negative terminals;

the accommodating frame is arranged on the circuit board and provided with an accommodating space, and the plurality of positive terminals and the plurality of negative terminals are positioned in the accommodating space; and

a hub, comprising:

the main body is detachably arranged in the accommodating space and comprises a plurality of side wall parts and a bottom plate part, the side wall parts are connected with the bottom plate part and surround an accommodating part together with the bottom plate part, the accommodating part is used for accommodating a plurality of thread ends, and the bottom plate part is provided with a plurality of positive terminal through holes for the penetration of a plurality of positive terminals and a plurality of negative terminal through holes for the penetration of a plurality of negative terminals; and

the grounding baffle plate is positioned in the accommodating part and comprises a baffle plate part and a plurality of grounding folding legs, the baffle plate part divides the accommodating part of the main body, and the grounding folding legs are connected to one side of the baffle plate part and respectively correspond to the negative terminal through holes of the bottom plate part and are electrically connected with the negative terminals, so that the negative terminals are commonly grounded.

2. The electronic device according to claim 1, wherein each of the ground hinge legs has a through hole, and the through holes of the ground hinge legs respectively correspond to the negative terminal through holes of the bottom plate portion of the main body.

3. The electronic device of claim 2, wherein the apertures of the plurality of through holes of the plurality of ground return legs are at least smaller than the apertures of the plurality of negative terminal through holes of the bottom plate portion of the main body.

4. The electronic device as claimed in claim 1, wherein the partition portion is integrally formed with the plurality of ground pins.

5. The electronic device as claimed in claim 1, wherein the partition portion and the plurality of ground pins are two sheet structures independent of each other.

6. The electronic device as claimed in claim 4, wherein the partition plate portion comprises two partition bodies attached to face each other, and a plurality of the ground bent legs are connected to one side of the plurality of partition bodies.

7. The electronic device according to claim 1, wherein at least a portion of said plurality of side wall portions of said main body each have at least one rib located in said receiving portion for spacing adjacent ones of said stubs.

8. The electronic device of claim 7, wherein at least some of the ribs have a length less than a depth of the receiving portion.

9. The electronic device according to claim 1, wherein the hub further comprises a plurality of elastic retaining arms, each of the plurality of elastic retaining arms comprises an extending portion and a retaining portion, the extending portion extends outwardly from a side of the plurality of side wall portions of the main body away from the bottom plate portion, and the retaining portion is connected to the main body via the extending portion and extends inwardly from the extending portion to stop at a side of the plurality of terminals away from the bottom plate portion.

10. The electronic device as claimed in claim 1, wherein the bottom plate portion has a plurality of guide slopes surrounding an end where a plurality of the positive terminal through holes and a plurality of the negative terminal through holes are formed.

11. A hub adapted for receiving a plurality of terminals, the hub comprising:

the main body comprises a plurality of side wall parts and a bottom plate part, wherein the side wall parts are connected with the bottom plate part and surround a containing part together with the bottom plate part, the containing part is used for containing a plurality of wire ends, and the bottom plate part is provided with a plurality of positive terminal through holes and a plurality of negative terminal through holes; and

the grounding baffle plate is positioned in the accommodating part and comprises a baffle plate part and a plurality of grounding folding legs, the baffle plate part divides the accommodating part of the main body, and the grounding folding legs are connected to one side of the baffle plate part and respectively correspond to the negative terminal through holes of the bottom plate part.

12. The hub according to claim 11, wherein each of the ground hinge legs has a through hole, and the through holes of the ground hinge legs correspond to the through holes of the negative terminals of the bottom plate portion of the main body, respectively.

13. The hub according to claim 12, wherein the plurality of perforations of the plurality of ground return legs are at least smaller in diameter than the plurality of negative terminal perforations of the bottom plate portion of the main body.

14. The hub of claim 11, wherein the divider portion is integrally formed with the plurality of ground return legs.

15. The hub of claim 11, wherein the divider portion and the plurality of ground return legs are two sheet structures independent of each other.

16. The hub according to claim 14 wherein the divider plate portion comprises two divider plates attached to face each other, and a plurality of the ground return tabs are attached to one side of the plurality of divider plates.

17. The hub according to claim 11, wherein at least a portion of said plurality of side wall portions of said main body each have at least one rib located in said receptacle for spacing adjacent ones of said stubs.

18. The hub according to claim 17, wherein at least a portion of the plurality of ribs have a length less than the depth of the receiving portion.

19. The hub according to claim 11, further comprising a plurality of elastic retaining arms, each of the plurality of elastic retaining arms comprises an extending portion and a retaining portion, the extending portion extends outwardly from a side of the plurality of side wall portions of the main body away from the bottom plate portion, and the retaining portion is connected to the main body via the extending portion and extends inwardly from the extending portion to stop at a side of the plurality of stubs away from the bottom plate portion.

20. The hub according to claim 11 wherein the bottom plate portion has a plurality of guide ramps surrounding an end of which are formed a plurality of said positive terminal through holes and a plurality of said negative terminal through holes.

Technical Field

The present disclosure relates to a hub, and more particularly, to a hub including a ground partition and an electronic device including the same.

Background

With the advancement of technology, electronic products such as computers or servers have increasingly complicated wiring arrangements, which may include signal lines connected between a main power source, speakers, light emitting devices and a circuit board, and which span a large number of different areas within the product housing.

However, the space inside the casing is usually narrow and limited, so during the assembly process, it is very difficult for the assembly personnel to correctly insert the signal lines from different places into the specific terminals on the same circuit board, and after the signal lines are inserted into the circuit board, the signal interference exists between the signal lines from different sources, which will affect the quality of signal transmission if not trying to reduce.

Disclosure of Invention

In view of the above, the present invention provides a hub and an electronic device including the same, which can solve the problems of the inconvenience of assembling the circuit and the signal interference.

According to an embodiment of the present invention, an electronic device is suitable for a plurality of wire ends to be inserted. The electronic device comprises a circuit board, an accommodating frame and a concentrator. The hub comprises a main body and a grounding partition plate. The circuit board comprises a plurality of positive terminals and a plurality of negative terminals. The accommodating frame is arranged on the circuit board and is provided with an accommodating space. The positive terminal and the negative terminal are located in the accommodating space. The main body is detachably arranged in the accommodating space. The main body comprises a plurality of side wall parts and a bottom plate part. The side wall part is connected with the bottom plate part and surrounds a containing part together with the bottom plate part. The holding part is used for holding the thread end. The bottom plate portion has a plurality of positive terminal through holes through which the positive terminals are respectively inserted and a plurality of negative terminal through holes through which the negative terminals are respectively inserted. The grounding partition plate is positioned in the accommodating part and comprises a partition plate part and a plurality of grounding folding legs. The partition plate portion partitions the accommodating portion of the main body. The grounding bent legs are connected to one side of the partition plate part and respectively correspond to the negative terminal through holes of the bottom plate part and are electrically connected with the negative terminals, so that the negative terminals are grounded together.

According to an embodiment of the present invention, a wire concentrator is disclosed, which is suitable for inserting a plurality of wire ends. The hub comprises a main body and a grounding partition plate. The main body comprises a plurality of side wall parts and a bottom plate part. The side wall part is connected with the bottom plate part and surrounds a containing part together with the bottom plate part. The holding part is used for holding the thread end. The bottom plate portion has a plurality of positive terminal through holes and a plurality of negative terminal through holes. The grounding partition plate is positioned in the accommodating part and comprises a partition plate part and a plurality of grounding folding legs. The partition plate portion partitions the accommodating portion of the main body. The grounding bent legs are connected to one side of the partition plate part and respectively correspond to the negative terminal through holes of the bottom plate part.

In the wire concentrator and the electronic device including the wire concentrator disclosed by the embodiments of the invention, the wire ends can be accommodated in the wire concentrator and then inserted into the corresponding terminals on the circuit board along with the wire concentrator, so that the convenience of circuit assembly can be greatly improved. Besides, the grounding partition board in the concentrator can separate the accommodating part of the main body to have the functions of separating and supporting the wire ends, and the grounding folding leg of the grounding partition board can also be used for penetrating the negative terminal of the corresponding main body, so that the negative terminals on the circuit board are grounded together, signal interference among the wire ends is reduced, and the quality of signal transmission is further improved.

The foregoing description of the present disclosure and the following detailed description are presented to illustrate and explain the principles and spirit of the invention and to provide further explanation of the invention as claimed.

Drawings

Fig. 1 is a perspective view of an electronic device including a hub according to an embodiment of the invention.

Fig. 2 to 3 are exploded schematic views of the electronic device of fig. 1.

Fig. 4 is a schematic side sectional view of the electronic device of fig. 1.

Fig. 5 is a schematic top view of the electronic device of fig. 1.

Fig. 6 is an exploded view of a hub according to another embodiment of the invention.

Fig. 7 is an exploded view of a hub according to yet another embodiment of the invention.

The reference numbers are as follows:

1. 1 ', 1' hub

7 thread end

8 accommodating frame

9 Circuit Board

110 main body

111 bottom plate part

113 side wall part

130. 130 ', 130' grounded barrier

131. 131 ', 131' divider plate

133. 133 ', 133' ground connection folding leg

150 elastic limit arm

151 extension part

153 position limiter

920 negative electrode terminal

910 positive terminal

1111 terminal through hole

1111a positive terminal through hole

1111a1, 1111b1 guide ramp

1111b negative terminal perforation

1131 chute

1132 Rib

1310 projection structure

1311' divider plate

1331 perforating

ED electronic device

S1 accommodating space

S2 receptacle

Detailed Description

The detailed features and advantages of the present invention are described in detail in the following embodiments, which are sufficient for anyone skilled in the art to understand the technical contents of the present invention and to implement the present invention, and the related objects and advantages of the present invention can be easily understood by those skilled in the art from the disclosure of the present specification, the claims and the accompanying drawings. The following examples further illustrate aspects of the present invention in detail, but are not intended to limit the scope of the invention in any way.

In addition, embodiments of the present invention will be disclosed with reference to the accompanying drawings, and for the purpose of clarity, numerous implementation details will be set forth in the following description. It should be understood, however, that these implementation details are not intended to limit the invention.

Also, some well-known and conventional structures and elements may be shown in the drawings in a simplified schematic manner for the purpose of neatness. In addition, some features of the drawings of the present invention may be slightly enlarged or changed in scale or size for the purpose of facilitating understanding and viewing of the technical features of the present invention, but this is not intended to limit the present invention. The actual dimensions and specifications of the product manufactured according to the present disclosure may be adjusted according to the manufacturing requirements, the characteristics of the product itself, and the invention as disclosed below, as will be described in the following.

Furthermore, the terms "end," "portion," "region," "place," and the like may be used hereinafter to describe a particular element or structure, or a particular feature thereon or therebetween, but are not limited to such terms. The term "and/or" may also be used hereinafter to refer to a combination including one or all of the associated listed elements or structures. The terms "substantially", "about" or "approximately" when used in conjunction with ranges of dimensions, concentrations, temperatures or other physical or chemical properties or characteristics, are also intended to encompass deviations that may exist in the upper and/or lower limits of the ranges for the properties or characteristics or that represent acceptable deviations from manufacturing tolerances or from analytical procedures that can still achieve the desired results.

Furthermore, unless otherwise defined, all terms or phrases used herein, including technical and scientific terms and terms, include their ordinary meanings and meanings as understood by those skilled in the art. Furthermore, the definitions of the above-mentioned words or terms should be construed in this specification to include meanings consistent with the technical fields related to the present invention. Unless specifically defined, these terms and phrases are not to be construed in an idealized or formal sense unless expressly so defined.

First, referring to fig. 1, an embodiment of the invention provides an electronic device ED adapted to be inserted with and electrically connected to a plurality of wire ends 7, where the wire ends 7 may be signal wires, for example, but the invention is not limited to the number and types of the wire ends 7 that can be supported by the electronic device ED, and the term "plurality" may refer to two or more than two. In addition, in the embodiment, the electronic device ED can collect the wire ends 7 into a beam and then electrically connect with the circuit board 9, so as to facilitate the operation of inserting the wire ends 7 into the circuit board 9.

In detail, please refer to fig. 2 to fig. 4, wherein fig. 2 to fig. 3 are exploded schematic views of the electronic device ED, and fig. 4 is a side sectional schematic view of the electronic device ED. In the present embodiment, the electronic device ED may include the circuit board 9, a receiving frame 8 and a hub 1. The circuit board 9 is a carrier for fixing electronic components (not shown) required by an electronic product to which the circuit board 9 is applied, and in an application, the circuit board 9 may be applied to a front panel (front panel) in a computer or a server, but the invention is not limited by the design of the circuit board 9, the electronic components thereon, and the environment or the electronic product to which the circuit board is applied. In the embodiment, the circuit board 9 may be provided with a plurality of positive terminals 910 and negative terminals 920 respectively corresponding to and electrically connected to the wire ends 7, but the number and arrangement of the positive terminals 910 and the negative terminals 920 may be adjusted according to actual requirements, and the invention is not limited thereto.

The accommodating frame 8 is disposed on the circuit board 9, in this embodiment, the accommodating frame 8 may be a frame surrounding the positive terminal 910 and the negative terminal 920, and as shown in the figure, the accommodating frame 8 is a substantially rectangular frame body to accommodate the positive terminal 910 and the negative terminal 920 in the accommodating space S1. The receiving space S1 can be used to receive the hub 1, so the size and shape of the receiving space S1 can be adjusted according to the arrangement of the positive terminal 910 and the negative terminal 920 in the hub 1, which is not limited in the present invention.

As shown in the figure, the wire ends 7 can be collectively inserted into the hub 1, and then received and inserted into the receiving space S1 of the receiving frame 8 together with the hub 1, so that the wire ends 7 can be correctly electrically connected to the corresponding positive terminal 910 and the negative terminal 920.

In detail, in the present embodiment, the hub 1 may include a main body 110, a ground partition 130, and a plurality of elastic limiting arms 150. The main body 110 may be, but not limited to, an integrally formed plastic material, and is adapted to be detachably received in the receiving space S1 of the receiving frame 8, the main body 110 may include a bottom plate 111 and a plurality of side walls 113, the side walls 113 are respectively connected to different sides of the bottom plate 111 to surround a receiving portion S2 together with the bottom plate 111, and the thread ends 7 may be inserted and collectively received in the receiving portion S2. Further, the bottom plate portion 111 of the main body 110 may have a plurality of terminal through holes, and for convenience of description, the terminal through hole through which the positive terminal 910 is inserted is defined as a positive terminal through hole 1111a, and the terminal through hole through which the negative terminal 920 is inserted is defined as a negative terminal through hole 1111b, the number and arrangement of the positive terminal through holes 1111a and the negative terminal through holes 1111b may correspond to the positive terminal 910 and the negative terminal 920 on the circuit board 9, and the positive terminal 910 and the negative terminal 920 may be inserted into the corresponding positive terminal through holes 1111a and the negative terminal through holes 1111b one-to-one when the main body 110 is accommodated in the accommodating space S1. In addition, two of the side walls 113 of the main body 110 may have a sliding groove 1131 thereon, respectively, for guiding the grounding diaphragm 130 when the grounding diaphragm 130 is installed in the accommodating portion S2, so that the grounding diaphragm 130 can be assembled in the accommodating portion S2 along a predetermined direction.

The ground partition 130 may include a partition portion 131 and a plurality of ground hinges 133, and the partition portion 131 may be inserted into the accommodating portion S2 along the slide groove 1131 of the side wall portion 113 of the main body 110 to divide the accommodating portion S2 into two smaller sub-spaces (not numbered), so as to divide the thread ends 7 in the accommodating portion S2 into two groups and provide support for the thread ends 7 of the two groups, thereby preventing the thread ends 7 from skewing in the accommodating portion S2. It should be noted that, considering the requirement of miniaturization and the restriction of plastic molding, the partition panel 131 for the partition accommodating portion S2 is preferably made of metal material to achieve the required thinness. In addition, in order to firmly fix the partition plate 131 in the accommodating portion S2, in the embodiment, two opposite sides of the partition plate 131 abutting against the sliding groove 1131 respectively have a protruding structure 1310, so that the partition plate 131 can be prevented from slipping out of the sliding groove 1131.

In the present embodiment, the grounding hinge 133 may be, but not limited to, integrally formed with the partition plate 131, and the grounding hinge 133 is connected to the same side of the partition plate 131 and may substantially hang from the partition plate 131. The grounding hinge 133 may be stacked on or above the bottom plate portion 111 of the main body 110 and respectively correspond to the negative terminal through holes 1111b through which the negative terminals 920 are inserted. In the present embodiment, the grounding bent legs 133 each have a through hole 1331, and the through holes 1331 respectively correspond to the negative terminal through holes 1111b of the bottom plate portion 111 of the main body 110 for the negative terminal 920 to pass through, so that when the hub 1 is accommodated in the accommodating space S1 of the accommodating frame 8, the negative terminal 920 on the circuit board 9 can pass through the negative terminal through hole 1111b of the bottom plate portion 111 of the main body 110 of the hub 1 and the through hole 1331 of the grounding bent leg 133 of the grounding partition 130, and the positive terminal 10 on the circuit board 9 passes through the positive terminal through hole 1111a of the bottom plate portion 111, wherein the aperture of the through hole 1331 of the grounding bent leg 133 of the grounding partition 130 can be substantially slightly smaller than the negative terminal through hole 1111b of the bottom plate portion 111 of the main body 110, for example, at least smaller than the outer diameter of the negative terminal 920, so that the negative terminal 920 can directly contact with the grounding bent leg 133 to form an electrical connection therewith when passing through the through hole 1331, the size of the aperture of the positive electrode terminal penetration hole 1111a on the bottom plate portion 111 of the main body 110 is not particularly limited, and may be substantially slightly larger than, equal to, or slightly smaller than the outer diameter of the positive electrode terminal 910 or the negative electrode terminal 920 inserted therein.

In addition, as shown in the figure, in this embodiment or other embodiments, a portion of the main body 110 where one end of the positive terminal penetration 1111a is formed (particularly, a portion near the outer side of the bottom plate portion 111 around where the positive terminal penetration 1111a is formed) has a plurality of guide slopes 1111a1, and the guide slopes 1111a1 surround an entrance for inserting the positive terminal 910, which is formed in the positive terminal penetration 1111a, and are inclined with respect to the bottom surface of the bottom plate portion 111 to guide the positive terminal 910 into the positive terminal penetration 1111 a. Similarly, the negative terminal penetration 1111b, a portion of the main body 110 forming one end of the negative terminal penetration 1111b (particularly, a portion near the outer side of the bottom plate part 111 around the negative terminal penetration 1111 b) has a plurality of guide slopes 1111b1, and these guide slopes 1111b1 surround an entrance forming the negative terminal penetration 1111b, into which the negative terminal 920 is inserted, which is inclined with respect to the bottom surface of the bottom plate part 111, and may guide the negative terminal 920 into the negative terminal penetration 1111 b.

The elastic limiting arm 150 may be, but not limited to, an integrally formed structure with the main body 110, and the elastic limiting arm 150 may extend from one side of the side wall portion 113 of the main body 110 away from the bottom plate portion 111 to a direction away from the bottom plate portion 111, so that the height of the elastic limiting arm 150 exceeds the top surface of the side wall portion 113. The elastic limiting arm 150 can be made of elastic material such as plastic, so that it can be forced to generate recoverable deformation by a moderate external force. Further, in the present embodiment, the elastic limiting arm 150 may include an extending portion 151 and a limiting portion 153, the limiting portion 153 is connected to the sidewall portion 113 of the main body 110 through the extending portion 151, and the limiting portion 153 protrudes inward from the end of the extending portion 151 away from the main body 110 and extends toward the limiting portion 153 on the opposite side to be slightly hook-shaped. It is to be understood that, during the process that the thread end 7 is accommodated in the accommodating portion S2 of the main body 110, the thread end 7 can push against the position-limiting portion 153 of the elastic position-limiting arm 150 to drive the extending portion 151 to bend and deform, when the thread end 7 enters the accommodating portion S2, the thread end 7 slides over the position-limiting portion 153 and does not push against the position-limiting portion 153, and at this time, the extending portion 151 resets to stop the position-limiting portion 153 at the side of the thread end 7 away from the bottom plate portion 111 of the main body 110, as shown in fig. 5, so as to limit the thread end 7 in the accommodating portion S2.

It should be noted that the number of the elastic limiting arms 150 can be adjusted according to actual requirements, and the invention is not limited thereto, and in some other embodiments, the wire concentrator of the present invention may not even have the elastic limiting arms 150, in which case, the wire end can also be firmly fixed in the accommodating portion of the main body by tightly fitting with the inner wall surface of the side wall portion of the main body.

In addition, as shown in fig. 2 and fig. 5, in the embodiment, each of the partial side wall portions 113 of the main body 110 of the hub 1 further has at least one rib 1132, which protrudes inward from the side wall portion 113 and is located in the accommodating portion S2 of the main body 110, and the length of the partial or all ribs 1132 may be at least smaller than the height of the side wall portion 113, or the length of the partial or all ribs 1132 may be at least smaller than the depth of the accommodating portion S2, as shown in the figure, at least some of the ribs 1132 may not extend to the bottom plate portion 111 and keep a distance from the bottom plate portion 111. These ribs 1132 help to properly space the thread end 7 during insertion of the thread end 7 to help maintain the thread end 7 in the main body 110 in a position aligned with the corresponding positive and negative terminal through-holes 1111a and 1111 b.

Therefore, in assembly, an assembler may insert the wire head 7 into the accommodating portion S2 of the main body 110 of the hub 1, wherein the wire head 7 may be limited to the accommodating portion S2 by the limiting portion 153 of the elastic limiting arm 150, on the other hand, the wire head 7 may be divided into two groups by the separating plate portion 131 of the grounding partition 130 without tilting, and meanwhile, the wire heads 7 of each group may be separated from each other by the rib 1132 of the side wall portion 113 of the main body 110 to correctly correspond to the positive terminal through hole 1111a and the negative terminal through hole 1111b of the bottom plate portion 111 of the main body 110, wherein part of the wire heads 7 also correspond to the through holes 1331 of the grounding bent 133 of the grounding partition 130. In this way, the wire ends 7 required to electrically connect the positive terminal 910 and the negative terminal 920 of the circuit board 9 can be collected on the hub 1. Then, the assembler only needs to insert the wire header 7 into the receiving space S1 of the receiving frame 8, so as to accurately and electrically connect the wire header 7 to the corresponding positive terminal 910 and the negative terminal 920 at one time, wherein the negative terminal 920 can respectively penetrate through the through hole 1331 of the ground folded leg 133 of the ground partition 130 and directly contact the ground partition 130, so that the ground folded leg 133 of the ground partition 130 can form a common ground.

Therefore, with the hub 1 of the present embodiment, an assembler can firstly collect the required wire ends 7 into a bundle, arrange and arrange the wire ends 7 in advance according to the arrangement manner of the terminals (i.e., the positive terminal 910 and the negative terminal 920) on the circuit board 9, and then insert and butt-joint the wire ends 7 to the corresponding positive terminal 910 and the negative terminal 920 once again, so as to greatly improve the convenience of circuit assembly. In addition, the grounding partition 130 in the hub 1 of the present embodiment not only has the function of separating and supporting the wire head 7, but also can electrically connect the wire head 7 for electrically connecting with the negative terminal 920, so that the negative terminal 920 forms a common ground, which is helpful to reduce signal interference between the wire heads 7, thereby further improving the quality of signal transmission. In short, the hub 1 of the present embodiment can greatly improve the efficiency of the assembly line and is helpful to improve the quality of signal transmission.

However, the ground partition 130 of the hub 1 of the foregoing embodiment is only an example of the present invention, and the present invention is not limited thereto. For example, please refer to fig. 6, which is an exploded schematic view of a hub 1 'according to another embodiment of the present invention, it should be noted that the hub 1' of the embodiment of fig. 6 is different from the hub 1 of the foregoing embodiment only in the design of a ground partition, so that only the differences between the two embodiments are described below, and the same or similar parts can be understood by referring to the foregoing description, and will not be described again.

As shown in the drawings, in the present embodiment, the partition portion 131 'and the ground bent leg 133' of the ground partition 130 'of the hub 1' are sheet-like structures independent from each other, specifically, the partition portion 131 'and the ground bent leg 133' may be both a single integrally formed metal plate, and the two metal plates may be electrically connected by other suitable means such as welding, adhesive or direct contact. With this configuration, the ground spacer 130' can still electrically connect the terminal 7 electrically connected to the negative terminal 920, thereby achieving the effect of improving the signal transmission quality. Also, since the ground bent leg 133 'may be a single-piece structure formed separately from the partition portion 131', a configuration having two ground bent legs 133 'directly opposite to each other may be realized, thereby allowing both the ground bent legs 133' to be inserted into the immediately opposite positive and negative terminals.

Alternatively, as shown in fig. 7, fig. 7 is an exploded schematic view of a hub 1 "according to yet another embodiment of the present invention, wherein the hub 1" of the embodiment of fig. 7 is different from the hub 1 of the previous embodiment only in the design of the ground partition, so that only the difference between the two embodiments is described below, and the same or similar parts can be understood by referring to the foregoing description, and will not be described again.

As shown in the figure, in the present embodiment, the partition plate portion 131 "of the ground partition 130" of the hub 1 "is a structure folded into a sheet and has two partition plates 1311 attached to face each other, and the ground folded leg 133" can be integrally connected to the partition plate 1311 ", wherein the partition plate portion 131" is formed by a double-layer structure of the attached partition plates 1311 ", so that the thickness of the partition plate portion can be thicker than that of the ground partition of the foregoing embodiment, which contributes to increase the overall structural strength. It should be noted that the separation plates 1311' may be attached to each other by, but not limited to, welding, adhesive, or other suitable means such as direct contact. With this configuration, the ground spacer 130 ″ can still electrically connect the terminal 7 electrically connected to the negative terminal 920, thereby achieving the effect of improving the signal transmission quality. Furthermore, since the two separator bodies 1311 ″ are stacked, the arrangement of the two grounding bent legs 133 ″ directly facing each other can be realized, and the grounding bent legs 133 ″ can be inserted into both the positive electrode terminal and the negative electrode terminal that are immediately facing each other.

In the wire concentrator and the electronic device including the wire concentrator disclosed by the embodiments of the invention, the wire ends can be accommodated in the wire concentrator and then inserted into the corresponding terminals on the circuit board along with the wire concentrator, so that the convenience of circuit assembly can be greatly improved. Besides, the grounding partition board in the concentrator can separate the accommodating part of the main body to have the functions of separating and supporting the wire ends, and the grounding folding leg of the grounding partition board can also be used for penetrating the negative terminal of the corresponding main body, so that the negative terminals on the circuit board are grounded together, signal interference among the wire ends is reduced, and the quality of signal transmission is further improved.

Although the present invention has been described with reference to the above embodiments, it is not intended to limit the invention. All changes and modifications that come within the spirit and scope of the invention are desired to be protected by the following claims. With regard to the scope of protection defined by the present invention, reference should be made to the appended claims.