CN218300354U - Docking station - Google Patents

Abstract

The embodiment of the application provides a docking station, relates to terminal auxiliary assembly technical field, can solve easily topple over, portable and the poor problem of operability when placing docking station under the multiple scene. The docking station includes a docking station body and a supporting bracket. Wherein, be provided with a plurality of expansion interfaces on the docking station body, be equipped with a plurality of connection structure on the docking station body, have two connection structure settings on the different side of docking station body at least among a plurality of connection structure. And the support frame is detachably connected with a connecting structure on the docking station body through the connecting part so as to be fixedly connected on different side surfaces of the docking station body. The docking station of the embodiment of the application is used in the terminal output device.

Description

Docking station

Technical Field

The embodiment of the application relates to the technical field of terminal auxiliary equipment, in particular to a docking station.

Background

Docking station, also known as port replicator, is an external device designed for computers, smart phones, and the like. By copying or even expanding the ports, the computer, the smart phone and the like can be conveniently connected with equipment such as a power adapter, a network cable, a mouse, an external keyboard, a printer, an external display and the like in a one-stop mode, and the interfaces can be used simultaneously after expansion, so that the equipment such as the computer, the tablet, the mobile phone and the like can be connected with the equipment such as the mouse, the keyboard, the display, the U disk, the mobile hard disk and the like, and the functions of mutually transmitting data among the equipment and expanding a notebook screen to an external large screen for screen projection are achieved.

The docking station in the current market is mostly composed of a shell, a working indicator light, a Type-C (USB Type-C, also called USB-C) line, that is, a hardware interface of a universal serial bus) cable in terms of structural form. The docking station is placed beside a notebook computer, and is connected with devices such as a computer, a tablet and a mobile phone, a mouse, a keyboard and an HDMI (High Definition Multimedia Interface) line, namely a High Definition Multimedia Interface line, a U disk, a mobile hard disk and the like through a Type-C cable for being inserted into a docking station Interface for expansion.

However, the docking station with such a configuration structure generally has a height ranging from 110 mm to 180mm, and since the docking station can only support and prevent the docking station from falling down laterally by using the area of the bottom of the docking station, once a mobile hard disk or an HDMI cable is connected, the docking station is very easy to fall down to cause an expansion function, and seriously damages a notebook or other equipment; the prior art is assisted by gluing or other fixing tools on the bottom, but has the following defects: firstly, because the docking station is a portable mobile product, the docking station is fixed by external force and is inconvenient to carry; secondly, it affects the beauty.

SUMMERY OF THE UTILITY MODEL

In view of this, the embodiment of the present application provides a docking station, which can solve the problems of easy toppling, inconvenient carrying and poor operability when the docking station is placed in various scenes.

To achieve the above object, an embodiment of the present application provides a docking station, which includes a docking station body and a supporting frame. Wherein, be provided with a plurality of expansion interfaces on the docking station body, be equipped with a plurality of connection structure on the docking station body, have two connection structure settings on the different side of docking station body at least among a plurality of connection structure. In addition, the support frame is provided with a connecting part, and the support frame is detachably connected with a connecting structure on the docking station body through the connecting part so as to be fixedly connected on different side surfaces of the docking station body.

Specifically, the docking station body has connecting structures on at least two different sides, wherein the support frame is detachably connected with the connecting structures through connecting parts arranged on the support frame. For example, after the support frame is fixedly connected with one side of the docking station body, the support frame is detachably connected with the docking station body, so that the support frame can be detached, and at the same time, because the support frame also has a connecting structure on another different side of the docking station body, a user can detachably connect the detached support frame with another different side. For a plurality of application scenarios, for example, when the docking station body is the cuboid structure, the length-width-height ratio of the cuboid structure here is usually close to the length-width-height ratio of the traditional patch board, when the docking station body is placed in sufficient space, the user wants a side with the largest area in the docking station body to be the contact surface with the support frame, namely the docking station body is flatly placed on the support frame, the support frame can be connected with the side with the largest area, for example, when the user wants to vertically place the docking station body in the narrow and small space of the docking station body, the support frame can be connected with the side with the largest area on the docking station body. With the adoption of the design, the applicable scenes under the support of different sides of the docking station body are met, and the moving portability of the docking station body is improved relative to the fixation of the docking station body by other fixing tools.

In a possible implementation of the present application, the connection structure is a groove provided on the docking station body, the connection part is a protrusion provided on the support frame, and the protrusion is engaged with the groove to fixedly connect the support frame to the docking station body. The structure is simple and easy to implement, and the support is stable.

In a possible implementation of the present application, the connecting structure is a first magnet disposed on the docking station body, the connecting portion is a second magnet disposed on the supporting frame, the first magnet and the second magnet are opposite in magnetic property, and the first magnet and the second magnet attract each other to fixedly connect the supporting frame to the docking station body. So can dismantle mode easy operation, in addition, for example, when first magnet and second magnet are the slice magnet and attach respectively on the docking station body and the support frame is close to a side end face of first magnet on, its design is simple pleasing to the eye, and connection structure and connecting portion magnetism inhale the laminating and make occupation space little, conveniently carry.

In a possible implementation of this application, connection structure is the third magnet of setting on the docking station body, and connecting portion are the magnetic conduction piece of setting on the support frame, and third magnet adsorbs with the magnetic conduction piece to with support frame fixed connection on the docking station body. From this, can realize that connection structure and connecting portion's absorption formula can dismantle the connection, and set up the mode of third magnet on the docking station body for additional structural style on the docking station body is simple, portable.

In a possible implementation of the present application, a magnet accommodating groove is formed in the docking station body, and the third magnet is fixed in the magnet accommodating groove. Here, the setting of magnet holding tank can the holding third magnet on the one hand, and on the other hand also can play spacing effect to third magnet and make more firm of third magnet be in the same place with this body coupling of docking station.

In a possible implementation of the present application, the support frame is made of a magnetic conductive material, the magnetic conductive member is a body of the support frame, and the third magnet is adsorbed to the support frame so as to fixedly connect the support frame to the docking station body. Compared with the structure that the magnetic conduction piece is additionally arranged on at least part of the support frame, the support frame is made of magnetic conduction materials, so that the structure is simple; on the other hand, thereby because whole support frame makes the support frame directly more stable with the bearing structure that third magnet adsorbs messenger support frame 3 for setting up of magnetic conduction spare, and can dismantle the operation more convenient.

In a possible implementation manner of the present application, a plurality of third magnets are disposed on at least one side surface of the docking station body, and the plurality of third magnets are adsorbed to the supporting frame so as to fixedly connect the supporting frame to the docking station body. Here, the design of the plurality of third magnets on at least one side of the docking station body allows the supporting frame to be detachably and fixedly connected with different sides of the docking station body, and further, the plurality of third magnets on one side of the docking station body more firmly adhere to the supporting frame than only one magnet.

In a possible implementation manner of the present application, the docking station body is a rectangular parallelepiped structure, one of two opposite side surfaces of the docking station body having the largest area is a first side surface, the side surface perpendicular to the first side surface includes a second side surface, and the first side surface and the second side surface are both provided with a connecting structure. Therefore, the support frame is fixedly connected with different side surfaces of the docking station body.

Here, when the docking station body has a rectangular parallelepiped structure, if the six faces of the docking station body having the rectangular parallelepiped structure are not distinguished, the connection structure may be disposed on two side faces of the docking station body at opposite positions, and therefore, the first side face and the second side face are used to distinguish different side faces, so as to clearly identify the connection between the different side faces of the supporting frame and the docking station body.

In one possible implementation of the present application, the plurality of connection structures are disposed on a side of the docking station body where the docking interface is not disposed. Here, the plurality of connection structures are kept from being disposed on a side of the docking body where the docking interface is disposed, so that the connection structures are kept from affecting the layout of the docking interface.

In one possible implementation manner of the present application, the supporting frame includes a supporting plate disposed in a horizontal direction, the supporting plate is used for supporting the docking station body, and the connecting portion is disposed on one side of the supporting plate close to the connecting structure. Like this, the design of backup pad multiplicable support area of contact to the docking station body, and then makes the support stability of support frame to the docking station body better. In addition, the position setting of connecting portion like this for be connected between support frame and the docking station body and closely laminate, further can increase support stability.

In a possible implementation of this application, the both ends that the backup pad is relative all have the kink, and the kink is kept away from a side bending of docking station body towards the backup pad, and the distance between the terminal surface place horizontal plane of two kinks and backup pad place horizontal plane equals, and the plane that kink, backup pad and support frame were placed encloses into heat dissipation channel.

Specifically, the both ends that the backup pad is relative all outwards extend there is the kink, and two kinks all keep away from a lateral buckling of docking station body towards the backup pad, and wherein, the design that the distance between the terminal surface place horizontal plane of two kinks and backup pad place horizontal plane equals, when the support frame was placed on the horizontal plane (for example on the desk face), the backup pad remained parallel with the horizontal plane, guaranteed the support stability of docking station body when arranging in the backup pad. In addition, the plane that kink, backup pad and support frame were placed encloses into the design that has heat dissipation channel for the heat that produces in the work of docking station body is scattered through heat dissipation channel, and this heat dissipation channel's design does not increase peripheral hardware heat abstractor, but has still improved the heat dissipation problem of docking station body when it plays the supporting role through setting up the support frame, thereby has further improved the stability of docking station body during operation.

In one possible implementation of the present application, the docking station body has two opposite side surfaces, and the plurality of docking interfaces are disposed on the two opposite side surfaces of the docking station body. Because the docking interface on the docking station body is more, it is many can reach dozens of, only with it sets up on a side vacancy not down, generally need set up on two sides, and set up on two relative sides, make rationally distributed, pleasing to the eye, in addition, compare and set up on two adjacent sides, at the cable plug in-process on a plurality of docking interfaces on the docking station body, difficult emergence winding between a plurality of cables then leads to the docking station body to easily topple over when preventing to drag.

In one possible implementation manner of the present application, the plurality of expansion interfaces are any combination of one or more of USB, type-C, HDMI, DP, RJ45, and Type PD. Therefore, the multiple combined designs of the multiple expansion interfaces can increase the application range of the docking station body.

In one possible implementation manner of the present application, among the plurality of expansion interfaces, the plurality of USB expansion interfaces are located on the same side of the docking station body. Here, since the USB expansion interface is the most commonly used expansion interface for users, that is, the USB expansion interface is used with a relatively high frequency and is disposed on the same side, the convenience of operation for users is improved.

Drawings

Fig. 1 is a schematic structural diagram of a docking station body, a connecting structure and a supporting frame according to an embodiment of the present disclosure at a first viewing angle;

fig. 2 is an exploded schematic view of a docking station body, a connecting structure and a supporting frame according to an embodiment of the present disclosure;

fig. 3 is a schematic structural view illustrating a docking station standing on a supporting frame according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of a docking station body, a connecting structure and a supporting frame according to an embodiment of the present disclosure from a second viewing angle;

fig. 5 is a schematic structural diagram illustrating a supporting bracket provided on a largest side surface of a docking station body according to an embodiment of the present application;

fig. 6 is a schematic structural view of a supporting frame according to an embodiment of the present disclosure;

fig. 7 is a cross-sectional view of a docking station body according to an embodiment of the present application.

Reference numerals:

1-a docking station body; 11-an expansion interface; 111-control switch; 112-USB interface; 113-memory card interface; 114-Type PD interface; 115-HDMI interface; 116-DP interface; 12-a PCBA circuit board; 2-a linking structure; 3-a support frame; 31-a support plate; 32-bending part; 33-magnet accommodating groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, specific technical solutions of the present application will be described in further detail below with reference to the accompanying drawings in the embodiments of the present application. The following examples are intended to illustrate the present application but are not intended to limit the scope of the present application.

In the embodiments of the present application, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present application, "a plurality" means two or more unless otherwise specified.

In addition, in the embodiments of the present application, directional terms such as "upper", "lower", "left", and "right" are defined with respect to the schematically-placed orientation of components in the drawings, and it is to be understood that these directional terms are relative concepts, which are used for descriptive and clarifying purposes, and may be changed accordingly according to changes in the orientation in which the components are placed in the drawings.

In the embodiments of the present application, unless otherwise explicitly specified or limited, the term "connected" is to be understood broadly, for example, "connected" may be a fixed connection, a detachable connection, or an integral body; may be directly connected or indirectly connected through an intermediate.

In the embodiments of the present application, the terms "include", "include" or any other variations are intended to cover non-exclusive inclusions, so that a process, a method, an article, or an apparatus including a series of elements includes not only those elements but also other elements not explicitly listed, or further includes elements inherent to such a process, a method, an article, or an apparatus. Without further limitation, an element defined by the phrase "comprising one of 8230, and" comprising 8230does not exclude the presence of additional like elements in a process, method, article, or apparatus comprising the element.

In the embodiments of the present application, the words "exemplary" or "such as" are used herein to mean serving as an example, instance, or illustration. Any embodiment or design described herein as "exemplary" or "such as" is not necessarily to be construed as preferred or advantageous over other embodiments or designs. Rather, use of the word "exemplary" or "such as" is intended to present relevant concepts in a concrete fashion.

An embodiment of the present application provides a docking station, which is exemplified by referring to fig. 1, 2 and 3, and includes a docking station body 1 and a supporting bracket 3. Wherein, be provided with a plurality of expansion interface 11 on the docking station body 1, be equipped with a plurality of connection structure 2 on the docking station body 1, have two connection structure 2 settings on the different side of docking station body 1 at least in a plurality of connection structure 2. In addition, the supporting frame 3 has a connecting part (not shown), and the supporting frame 3 is detachably connected to one of the connecting structures 2 of the docking station body 1 through the connecting part, so as to fixedly connect the supporting frame 3 to different sides of the docking station body 1.

Specifically, the docking station body 1 has connecting structures 2 on at least two different sides, wherein the detachable connection of the docking station body 1 and the supporting frame 3 is achieved by the connecting parts provided on the supporting frame 3 and the connecting structures 2. For example, after the supporting frame 3 is fixedly connected to one of the side surfaces of the docking station body 1, since the supporting frame 3 is detachably connected to the docking station body 1, the supporting frame 3 can be detached therefrom, and at this time, since the docking station body 1 also has the connecting structure 2 on another different side surface, the user can detachably connect the detached supporting frame 3 to another different side surface, and with such a design, the supporting frame 3 can be connected to different side surfaces of the docking station bodies 1, and thus, the docking station is applicable to a plurality of application scenarios.

In a plurality of application scenarios, for example, when docking station body 1 is the cuboid structure, here, the length-width ratio of cuboid structure is close to the length-width ratio of traditional wiring board usually, at this moment, when docking station body 1 placed the space abundant, the user wants the biggest side in the docking station body 1 as the contact surface with support frame 3, docking station body 1 keeps flat on support frame 3 promptly, can let support frame 3 be connected with the biggest side in this docking station body 1, for example again, under docking station body 1 placed the space circumstances such as narrow and small, the user wants to put docking station body 1 immediately, can be connected with the biggest side of being different from the area on support frame 3 and the docking station body 1. With the above design, not only the applicable scenarios under different side supports of the docking station body 1 are satisfied, but also the portability of the movement of the docking station body 1 is increased relative to the fixing thereof by other fixing tools.

It should be noted that, here, the specific structural shape of the docking station body 1 is not limited, and may be a common rectangular parallelepiped structure, or other polyhedral structures, or a cylindrical structure, where the cylindrical structure specifically means that the shape is similar to the cylindrical shape, for example, the side portion of the cylindrical body may be set as a planar structure, preferably, a rectangular parallelepiped structure is selected, which is simple to manufacture relative to other structural shapes, and conveniently sets a plurality of expansion interfaces 11 on the side surface thereof, so as to support the same. In addition, it should be noted that, in the embodiments of the present application, the docking station body 1 having a rectangular parallelepiped structure is taken as an example and described unless otherwise specified.

In addition, it should be added that the detachable connection form between the connection portion and the connection structure 2 may be a snap connection, or a magnetic connection, and the like, and the specific connection form between the connection portion and the connection structure 2 is not limited, and the detachable connection therebetween is satisfied.

In some embodiments, referring to fig. 1, 2 and 3, the connecting structure 2 is a groove (not shown) disposed on the docking station body 1, and the connecting part is a protrusion (not shown) disposed on the supporting frame 3, and the protrusion is inserted into the groove to fixedly connect the supporting frame 3 to the docking station body 1. Wherein, the recess on the docking station body 1 side can be a plurality ofly, preferably is two, and at this moment, the arch on the support frame also is two, and the position corresponds mutually, so, can guarantee the support stability of support frame 3 to docking station body 1. In addition, the connection structure 2 may be a protrusion extending outward from the docking station body 11, and accordingly, the connection portion is a groove disposed on the support frame 3, and the protrusion is engaged with and extends into the groove to fixedly connect the support frame 3 to the docking station body 1, which is not described in detail.

In some embodiments, referring to fig. 1, 4 and 5, the connecting structure 2 is a first magnet disposed on the docking station body 1, the connecting portion is a second magnet (not shown) disposed on the supporting frame 3, the magnetic properties of the adjacent end surfaces of the first magnet and the second magnet are opposite, and the first magnet and the second magnet attract each other to fixedly connect the supporting frame 3 to the docking station body 1. Mode easy operation so can dismantle, in addition, preferably, first magnet and second magnet are sheet magnet, and when attached respectively on docking station body 1 and support frame 3 is close to a side end face of first magnet on, its design is simple pleasing to the eye, and connection structure 2 and connecting portion magnetism inhale the laminating and make occupation space little, conveniently carry.

Referring to fig. 1, 2 and 4, the connecting structure 2 is a third magnet disposed on the docking station body 1, the connecting portion is a magnetic conductive member (not shown) disposed on the supporting frame 3, and the third magnet is attracted to the magnetic conductive member to fixedly connect the supporting frame 3 to the docking station body 1. From this, can realize that connection structure 2 and the absorption formula of connecting portion can dismantle the connection, and set up the mode of third magnet on docking station body 1 for additional structural style on the docking station body 1 is simple, portable.

It should be noted that, the specific connection mode of the magnetic conduction member and the support frame 3 is not limited, for example, the magnetic conduction member may be connected by a screw, or the magnetic conduction member and the support frame 3 are designed to be integrally formed, and it is only required that the magnetic conduction member and the support frame 3 meet the fixed connection. In addition, the material of the magnetic conduction member is not limited here, and may be iron, and may also be a nickel-iron alloy, and the like, and preferably, the magnetic conduction member selects an iron material, and the magnetic conduction member is low in cost and is easy to process into various shapes.

Referring to fig. 1, 2 and 6, the docking station body 1 is provided with a magnet receiving groove 33 (not shown), and a third magnet is fixed in the magnet receiving groove 33. Here, the magnet accommodating groove 33 can accommodate the third magnet, and on the other hand, can also limit the third magnet so that the third magnet is more stably connected with the docking station body 1.

Here, it should be noted that the case where the magnet accommodating groove 33 is provided on the docking station body 1 is not shown, and the case where the magnet accommodating groove 33 is provided on the supporting bracket 3 is shown in fig. 6, and specifically, as described below, with reference to fig. 1, 2 and 6, it is also possible that the third magnet is fixedly connected to the docking station body 1, and the magnet accommodating groove 33 is provided on the supporting bracket 3. Wherein, on the side that sets up connection structure 2 on the docking station body 1, third magnet is two and fixes respectively on this side, and is corresponding, 3 are equipped with two and third magnet assorted magnet holding tank 33 on the support frame, and the inner wall of magnet holding tank 33 is laminated with the outer wall of third magnet mutually. Thus, the supporting stability of the supporting frame 3 to the docking station body 1 can be further increased.

In some embodiments, referring to fig. 1, 2 and 6, the supporting frame 3 is made of a magnetic conductive material, the magnetic conductive member is a body of the supporting frame 3, and the third magnet on the docking station body 1 is attracted to the supporting frame 3, so as to fixedly connect the supporting frame 3 to the docking station body 1. Therefore, compared with the structure that the magnetic conduction piece is fixedly connected to the part of the support frame 3, the support frame 3 is made of magnetic conduction materials, and on one hand, the structure is simple; on the other hand, thereby because whole support frame 3 makes support frame 3 direct and third magnet adsorption make support frame 3's bearing structure more stable for setting up of magnetic conduction spare, and can dismantle the operation more convenient.

Here, it should be noted that a part of the body of the support frame 3 near the side of the connection structure 2 may be made of a magnetic conductive material, so that the manufacturing cost of the support frame 3 can be reduced on the premise of ensuring the support stability. In addition, the magnetic conductive material is not limited, and it is preferable to select a ferrous material in consideration of cost.

Further, referring to fig. 1, 2 and 6, at least one side of the docking station body 1 is provided with a plurality of third magnets, and the plurality of third magnets are attracted to the supporting frame 3 to fixedly connect the supporting frame 3 to the docking station body 1. Here, the docking station body 1 is provided with a plurality of third magnets on at least one side surface thereof, so that the supporting frame 3 can be detachably and fixedly connected with a plurality of different side surfaces of the docking station body 1, wherein the plurality of third magnets provided on one of the side surfaces of the docking station body 1 are more firmly attached to the supporting frame than only one third magnet is provided.

Referring to fig. 1, 2 and 4, the docking station body 1 is a rectangular parallelepiped structure, one of two opposite side surfaces of the docking station body 1 having the largest area is a first side surface, a side surface perpendicular to the first side surface includes a second side surface, and the first side surface and the second side surface are both provided with the connecting structures 2. In this way, the supporting frame 3 can be fixedly connected with different sides of the docking station body 1.

Here, when the docking station body 1 is of a rectangular parallelepiped structure, if six faces of the docking station body 1 of the rectangular parallelepiped structure are not distinguished, there may be a case where the connection structures 2 are only disposed on two opposite side faces at opposite positions, for example, the connection structures 2 are only disposed on two opposite side faces of the docking station body 1 having the largest area, and although the connection structures 2 are also disposed on two side faces of the docking station body 1 in this case, since the two opposite side faces are the same, it is impossible to support different side faces (for example, other side faces perpendicular to the two opposite side faces of the docking station body 1 having the largest area). Thereby, the first side and the second side are used to distinguish different sides to clarify the connection between the different sides of the support stand 3 and the docking station body 1.

In some embodiments, referring to fig. 1, 2 and 4, a plurality of connecting structures 2 are provided on the side of the docking body 1 where the docking interface 11 is not provided. For example, if a plurality of connection structure 2 set up when docking station body 1 has expansion interface 11's side, on the one hand, connection structure 2 can occupy the subregion of this side, if need set up more expansion interface 11 in this side, expansion interface 11 can appear in the regional not lower condition of overall arrangement of this side, secondly, when supporting this side, the space between support frame 3 and this side is less, expansion interface 11 wiring is very inconvenient, on the other hand, in docking station body 1 course of operation, when a plurality of expansion interface 11 connect the cable promptly, the plug cable is inconvenient, or the condition of cable is pulled off when dismantling support frame 3 appears. As such, the plurality of connection structures 2 should avoid being disposed on the side of the docking station body 1 where the expansion interface is disposed, so as to avoid affecting the layout of the expansion interface 11.

In some embodiments, referring to fig. 1, 2 and 4, two opposite ends of the supporting plate 31 have bent portions 32, the bent portions 32 are bent toward a side of the supporting plate 31 away from the docking station body 11, a distance between a horizontal plane where end faces of the two bent portions 32 are located and a horizontal plane where the supporting plate 31 is located is equal, and the planes where the bent portions 32, the supporting plate 31 and the supporting frame 3 are located enclose a heat dissipation channel.

Specifically, both opposite ends of the supporting plate 31 are extended outwardly to form bending portions 32, and the two bending portions 32 are bent toward a side surface of the supporting plate 31 away from the docking station body 1, where the bending portions 32 may be arc-shaped bending portions 32, or may be flat-plate-shaped bending portions 32 having a certain clip with the supporting plate 31, and are not limited in particular, and preferably, the two symmetrical splayed bending portions 32 extended outwardly toward the plane where the supporting plate 31 is located may be used, compared with the bending portions 32 having other shapes, the supporting force transmitted to the supporting plate 31 is more balanced, so that the supporting stability of the supporting plate 31 is better, and further, the docking station body 1 is prevented from tilting. Wherein, the design that the distance between the terminal surface place horizontal plane of two kink 32 and the horizontal plane of backup pad 31 place equals, when support frame 3 placed the horizontal desktop on, backup pad 31 kept parallel with the horizontal desktop, guaranteed the support stability when docking station body 1 placed in backup pad 31 on. In addition, the plane that kink 32, support plate 31 and support frame 3 were placed encloses the design that has heat dissipation channel, because the relative both ends that do not set up kink 32 on the support plate 31 and docking station body 1 place the desktop between leave the gap, the air does not set up the relative both ends circulation of kink 32 on support plate 31, thereby make the heat that docking station body 1 produced in the work spill through heat dissipation channel, this heat dissipation channel's design does not increase peripheral hardware heat-dissipating device, but through setting up support frame 3 and having improved the radiating effect of docking station body 1 when it plays the supporting role, the stability of docking station body 1 during operation has further been improved.

In some embodiments, referring to fig. 2, 3 and 4, the docking station body 1 has two opposite sides, and the plurality of expansion interfaces 11 are disposed on the two opposite sides of the docking station body 1. Because the number of the expansion interfaces 11 on the docking station body 1 is more, for example, more than ten expansion interfaces can be provided, the expansion interfaces are often not arranged on one side surface, and usually need to be arranged on two side surfaces, but arranged on two opposite side surfaces, the layout is reasonable, the appearance is attractive, in addition, compared with the case that the expansion interfaces 11 are arranged on two adjacent side surfaces, in the process of plugging and unplugging the cables on the expansion interfaces 11 on the docking station body 1, the winding among the cables is not easy to occur, and the docking station body 1 is prevented from falling when the cables are dragged.

In some embodiments, referring to fig. 2, 3 and 7, the plurality of extension interfaces 11 are any one or more of a USB interface 112, a Type-C (not shown), an HDMI interface 115, a DP (display port, DP, high definition digital display interface standard) interface 116, an RJ45 (Registered Jack45, communication outlet) interface (not shown), and a Type PD (Power Delivery, PD, fast-band charging standard) interface 114. Therefore, the application range of the docking station body 1 can be increased by various combined designs of the plurality of expansion interfaces 11.

Here, it should be noted that the plurality of expansion interfaces 11 are not limited to the expansion interfaces 11 listed in the USB Interface 112, the Type-C Interface, the HDMI Interface 115, the DP Interface 116, the RJ45 Interface, and the Type PD Interface 114, and other expansion interfaces 11 such as VGA (Video Graphics Array, VGA for short, video Graphics Array), DVI (Digital Visual Interface, DVI for short, digital Video Interface) and the like may also be added according to actual needs to further improve the application range of the expansion dock body 1. Of course, according to the needs of the user, the types of the expansion interfaces 11 may be reduced, or the number of the expansion interfaces 11 may be increased, which may be adjusted reasonably according to the actual needs of the user, and is not limited herein.

In some embodiments, referring to fig. 2, 3 and 7, the plurality of USB expansion interfaces 112 are located on the same side of the docking station body 1. Here, since the USB expansion interface 112 is the expansion interface 11 most frequently used by the user, i.e., the USB expansion interface is used more frequently and is disposed on the same side, the convenience of operation for the user can be improved.

It should be added that, under the condition that the volume size of the docking station body 1 is not increased, in some implementations, according to different user requirements, the internal structure of the docking station body 1 may be innovatively designed, the PCBA (Printed Circuit Board Assembly) Circuit Board 12 wiring and cabling design is optimized, where the PCBA Circuit Board 12 is disposed in the docking station body 1, and in addition, the docking station body 1 further has the control switch 111, the storage card interface 113, and the like, and scientifically arranges the combinations of the expansion interfaces 11 with four ports, five ports, six ports, seven ports, eight ports, nine ports, ten ports, eleven ports, twelve ports, and thirteen ports, and it should be additionally noted that the combinations of the plurality of expansion interfaces 11 are not limited to the listed combinations, and are not limited in particular. Specifically, the following extension interfaces 11 are given as examples, such as a four-port combination may be that two USB interfaces 112 are on the same side, and an HDMI interface 115 and a Type PD114 interface are on the other side; or the four USB interfaces 112 are on the same side; or the RJ45 network port and one USB112 interface are on the same side, and the two USB interfaces 112 are on the other side; or the HDMI interface 115 and the RJ45 network port are on the same side, the two USB interfaces 112 are on the other side, and the five-port combination may be three USB interfaces 112 on the same side, and the HDMI interface 115 and the Type PD interface 114 on the other side; or three USB interface 112 are on the same side, one USB interface 112 and Type PD interface 114 are on the other side, the combination of six ports is that three USB interface 112 are on the same side, HDMI interface 115 and Type PD interface 114 are on the other side, and the RJ45 network port is at the docking station body 1 tail end. Here, for example, the arrangement of four USB interfaces 112 on the same side may be suitable for a person or a home user who needs more USB interfaces 112; for another example, the three USB interfaces 112 are on the same side, the HDMI interface 115 and the Type PD interface 114 are on the other side, and the combination of the RJ45 network port at the tail end of the docking station body 1 is mostly suitable for office users of a company. In short, the combination form of different expansion interfaces 11 can be selected according to different requirements of the user, and when the given example cannot meet the requirements of the user, the combination form of the expansion interfaces 11 meeting the special requirements of the user can be customized.

In addition, it should be noted that the combination of multiple expansion interfaces 11 is not limited to the combination form listed in the above embodiments, and the combination form of the specific expansion interface 11 is not limited, and may meet different user requirements.

The above-mentioned serial numbers of the embodiments of the present application are merely for description, and do not represent the advantages and disadvantages of the embodiments. The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all the equivalent structures or equivalent processes that can be directly or indirectly applied to other related technical fields by using the contents of the specification and the drawings of the present application are also included in the scope of the present application.

Claims (14)

1. A docking station, comprising:

the docking station comprises a docking station body, a plurality of connecting structures and a plurality of connecting modules, wherein the docking station body is provided with a plurality of docking interfaces, and at least two connecting structures in the plurality of connecting structures are arranged on different side surfaces of the docking station body;

the support frame is provided with a connecting part and is detachably connected with one connecting structure on the docking station body through the connecting part so as to fixedly connect the support frame on different sides of the docking station body.

2. The docking station of claim 1 wherein the connecting structure is a groove disposed on the docking station body and the connecting portion is a projection disposed on the support bracket, the projection engaging into the groove to fixedly connect the support bracket to the docking station body.

3. The docking station as claimed in claim 1, wherein the connecting structure is a first magnet disposed on the docking station body, the connecting portion is a second magnet disposed on the supporting frame, the first magnet and the second magnet have opposite polarities on the adjacent end surfaces, and the first magnet and the second magnet attract each other to fixedly connect the supporting frame to the docking station body.

4. The docking station as claimed in claim 1, wherein the connecting structure is a third magnet disposed on the docking station body, the connecting portion is a magnetic conductive member disposed on the supporting frame, and the third magnet is attracted to the magnetic conductive member to fixedly connect the supporting frame to the docking station body.

5. The docking station as claimed in claim 4, wherein the docking station body is provided with a magnet receiving groove, and the third magnet is fixed in the magnet receiving groove.

6. The docking station as claimed in claim 4, wherein the supporting frame is made of a magnetic conductive material, the magnetic conductive member is a body of the supporting frame, and the third magnet is attracted to the supporting frame to fixedly connect the supporting frame to the docking station body.

7. The docking station as claimed in claim 6, wherein a plurality of the third magnets are disposed on at least one side of the docking station body, and each of the third magnets is attracted to the supporting frame to fixedly connect the supporting frame to the docking station body.

8. The docking station as claimed in claim 1, wherein the docking station body has a rectangular parallelepiped structure, one of two opposite sides of the docking station body having the largest area is a first side, and the side perpendicular to the first side includes a second side, and the connecting structure is disposed on both the first side and the second side.

9. The docking station of claim 1, wherein a plurality of the connection structures are disposed on a side of the docking station body on which the docking interface is not disposed.

10. The docking station as claimed in any one of claims 1 to 9, wherein the supporting frame comprises a supporting plate disposed in a horizontal direction for supporting the docking station body, and the connecting part is disposed on a surface of the supporting plate adjacent to the connecting structure.

11. The docking station of claim 10, wherein the two opposite ends of the supporting plate have bent portions, the bent portions are bent toward a side of the supporting plate away from the docking station body, a distance between a horizontal plane where end faces of the two bent portions are located and a horizontal plane where the supporting plate is located is equal, and the bent portions, the supporting plate and the supporting frame are located to form a heat dissipation channel.

12. The docking station as claimed in any one of claims 1 to 9, wherein the docking station body has two opposite sides, and the plurality of docking interfaces are disposed on the two opposite sides of the docking station body.

13. The docking station of claim 12, wherein the plurality of expansion interfaces are any combination of any one or more of USB, type-C, HDMI, DP, RJ45, type PD.

14. The docking station of claim 13 wherein a plurality of the docking interfaces are USB located on the same side of the docking station body.

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