CN223141067U - Connection assembly, carrier assembly and electronic equipment - Google Patents

Abstract

The present application provides a connection component, a carrier component and an electronic device, which relate to the technical field of electronic devices. The connection component can make multiple carriers relatively fixedly connected, and the connection component includes: a data connector having a first surface, and having multiple first data connection parts on the first surface, the multiple first data connection parts are used to achieve data connection with multiple second data connection parts in multiple carriers, and the second data connection parts of each carrier are used to transmit the same or different data signals; the first surface can cover the multiple second data connection parts in the multiple carriers.

Description

Connection assembly, carrier assembly and electronic equipment

Technical Field

The present application relates to the field of electronic devices, and in particular, to a connection assembly, a carrier assembly, and an electronic device.

Background

Computer motherboards are typically monolithic boards, and when a functional component on the motherboard is damaged, such as a GPU or CPU, because the functional component is integral with the motherboard, it is often meant that the entire motherboard needs to be replaced, rather than just replacing the functional component or a local circuit board that integrates a functional component. The maintenance mode has the advantages of complicated replacement steps and high cost. For users who wish to upgrade the function according to their own needs, the integrated design means that it is difficult to individually upgrade the function.

Disclosure of utility model

The embodiment of the application aims to provide a connecting component, a carrier component and electronic equipment.

In order to solve the technical problems, the embodiment of the application provides the following technical scheme:

The first aspect of the application provides a connecting assembly capable of enabling a plurality of carriers to be fixedly connected relatively, the connecting assembly comprises a data connecting piece, a first surface and a second surface, wherein the first surface is provided with a plurality of first data connecting parts, the plurality of first data connecting parts are used for realizing data connection with a plurality of second data connecting parts in the plurality of carriers, the second data connecting parts of each carrier are used for transmitting the same or different data signals, and the first surface can cover the plurality of second data connecting parts in the plurality of carriers.

In some modified embodiments of the first aspect of the present application, the first surface is configured to abut against the plurality of carriers, the plurality of first data connection portions are a plurality of first plates, and when the first surface abuts against the plurality of carriers, a front projection area of the plurality of first plates onto the plurality of second data connection portions of the plurality of carriers is a first area, and a projection area of the plurality of second data connection portions of the plurality of carriers onto the plurality of first plates is a second area, wherein the first area is the same as the second area.

In some embodiments, the connection assembly further comprises a first compression member having a first compression surface with an orthographic area facing the second compression member covering at least a portion of the first data connection portion and at least a portion of the second data connection portion, and a second compression member having a second compression surface with an orthographic area facing the first compression member covering at least a portion of the first data connection portion and at least a portion of the second data connection portion, wherein the orthographic area facing the second compression member and the orthographic area facing the first compression member at least partially overlap, the first compression member and the second compression member being removably connected for providing a compression force to the data connection member and the carrier.

In some embodiments, the data connection member has a second surface opposite to the first surface, and a plurality of elastic members disposed on the first surface or the second surface or on the first surface and the second surface, wherein the plurality of elastic members of the first surface and the plurality of elastic members of the second surface are used for realizing elastic abutment.

In some embodiments, the elastic piece of the first surface is a first elastic piece, the first elastic piece comprises a first elastic arm forming a first included angle with the first surface, a first fixed end arranged at one end of the first elastic arm and fixed on the first surface, and a first contact end arranged at one end of the first elastic arm opposite to the first fixed end, wherein a first preset interval is arranged between the first contact end and the first surface, the first elastic arm can deform to enable the first contact end to be close to or far from the first surface, the elastic piece of the second surface is a second elastic piece, the second elastic piece comprises a second elastic arm forming a second included angle beta with the second surface, a second fixed end arranged at one end of the second elastic arm and fixed on the second surface, and a second contact end arranged at one end of the second elastic arm opposite to the second fixed end and provided with a second preset interval therebetween, and the second elastic arm can deform to enable the second contact end to be close to or far from the second surface.

The second aspect of the application provides a carrier assembly which comprises a connecting assembly and a plurality of carriers, wherein the connecting assembly comprises a data connecting piece, the data connecting piece is provided with a first surface, a plurality of first data connecting parts are arranged on the first surface, each carrier comprises at least one target function piece, at least one target function piece of different carriers is the same or different, each carrier is provided with a second data connecting part, the second data connecting part of each carrier is used for transmitting data signals of at least one target function piece, the first surface of the data connecting piece covers the plurality of second data connecting parts of the plurality of carriers, the plurality of first data connecting parts are in data connection with the plurality of second data connecting parts of the plurality of carriers, and the plurality of carriers are relatively fixedly connected through the connecting assembly.

In some variations of the second aspect of the application, the carriers include a target edge, the target edge being an edge of the carriers that is proximate to the second data connection, the target edge of each of the plurality of carriers being adjacent to the target edge of the other carrier, and the plurality of carriers satisfying the co-planar condition.

In some embodiments, the target edge has locking portions, each carrier having a locking portion that corresponds to one of the locking portions of its adjacent carrier, and the carrier assembly includes a locking member, the two corresponding locking portions being secured by one locking member.

In some embodiments, the carrier assembly further comprises a heat dissipation module disposed on the carrier and used for dissipating heat of the target function, a power management module disposed on the carrier and connected with the at least one target function in a signal manner and used for providing target voltage for the target function, a signal control module disposed on the carrier and connected with the at least one target function in a signal manner and used for providing target signals for the target function, and a storage module disposed on the carrier and connected with the at least one target function in a signal manner and used for storing operation data of the target function.

The third aspect of the application provides electronic equipment, which comprises a body, a plurality of carriers and a plurality of data connection parts, wherein the body is provided with an accommodating space and is used for accommodating carrier components, the carrier components comprise a connection component, the connection component comprises a data connection part, the data connection part is provided with a first surface, a plurality of first data connection parts are arranged on the first surface, each carrier comprises at least one target function part, at least one target function part of different carriers is identical or different, each carrier is provided with a second data connection part, the second data connection part of each carrier is used for transmitting data signals of at least one target function part, the first surface of each data connection part covers a plurality of second data connection parts of the plurality of carriers, the plurality of first data connection parts are in data connection with the plurality of second data connection parts of the plurality of carriers, and the plurality of carriers are in relatively fixed connection through the connection component.

Drawings

The above, as well as additional purposes, features, and advantages of exemplary embodiments of the present application will become readily apparent from the following detailed description when read in conjunction with the accompanying drawings. In the drawings, wherein like or corresponding reference numerals indicate like or corresponding parts, there are shown by way of illustration, and not limitation, several embodiments of the application, in which:

FIG. 1 schematically illustrates an exploded view of a connection assembly provided by the present application;

FIG. 2 schematically illustrates a top view of a data connection of a connection assembly provided by the present application;

FIG. 3 schematically illustrates a side view of a data connection of another connection assembly provided by the present application;

Fig. 4 schematically illustrates a schematic perspective view of a first board body of a connection assembly according to the present application;

FIG. 5 schematically illustrates another angular schematic view of a first plate of a connection assembly according to the present application;

FIG. 6 schematically illustrates a schematic structural view of a carrier assembly provided by the present application;

fig. 7 schematically shows an enlarged schematic view of a part a;

Fig. 8 schematically shows a schematic structural view of another carrier assembly provided by the present application.

Reference numerals illustrate:

1. The carrier, 11, the second data connecting part, 12, the target function part, 13, the target edge, 2, the data connecting part, 21, the first surface, 22, the second surface, 23, the first data connecting part, 24, the first plate body, 3, the first pressing part, 31, the first pressing surface, 311, the first locking area, 4, the second pressing part, 41, the second pressing surface, 411, the second locking area, 5, the elastic part, 51, the first elastic part, 511, the first elastic arm, 512, the first fixed end, 513, the first contact end, alpha, the first included angle, 52, the second elastic part, 521, the second elastic arm, 522, the second fixed end, 523, the second contact end, beta, the second included angle, 6, the fixed part, 7, the heat dissipation module, 8, the power management module, 9, the signal control module, 10, the storage module, 14, the locking part, 15, the locking part, 16, the locking part, 17, the connecting component, 18, and the signal transmission plate.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

It is noted that unless otherwise indicated, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the application and, together with a general description of the application given above, and the detailed description of the embodiments given below, serve to explain the principles of the application.

It is also to be understood that, although the application has been described with reference to some specific examples, a person skilled in the art will certainly be able to achieve many other equivalent forms of the application, having the characteristics as set forth in the claims and hence all coming within the field of protection defined thereby.

The above and other aspects, features and advantages of the present application will become more apparent in light of the following detailed description when taken in conjunction with the accompanying drawings.

Specific embodiments of the application will be described hereinafter with reference to the accompanying drawings, in which, however, it is to be understood that the embodiments set forth are merely examples of the application, which may be practiced in various ways. Well-known and/or repeated functions and constructions are not described in detail to avoid obscuring the application in unnecessary or unnecessary detail. Therefore, specific structural and functional details disclosed herein are not intended to be limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present application in virtually any appropriately detailed structure.

The specification may use the word "in one embodiment," "in another embodiment," "in yet another embodiment," or "in other embodiments," which may each refer to one or more of the same or different embodiments in accordance with the application.

The inventor of the application discovers that when a certain functional module is damaged or the user wants to upgrade a certain functional module, such as a CPU module or a GPU module, after purchasing the notebook computer, the functional module is inconvenient to detach from a main board, the functional module is time-consuming and labor-consuming to detach or install, and even the whole main board needs to be replaced.

Referring to fig. 1-6, a first embodiment of the present application proposes a connection assembly 17, where the connection assembly 17 enables a plurality of carriers 1 to be connected relatively and fixedly, the connection assembly 17 includes a data connection member 2 having a first surface 21, the first surface 21 having a plurality of first data connection portions 23 thereon, the plurality of first data connection portions 23 being configured to implement data connection with a plurality of second data connection portions 11 of the plurality of carriers 1, the second data connection portions 11 of each carrier 1 being configured to transmit the same or different data signals, and the first surface 21 being configured to cover the plurality of second data connection portions 11 of the plurality of carriers 1.

The carrier 1 includes, but is not limited to, a circuit board of a notebook computer, and may also be a circuit board of a mobile phone, a circuit board of a tablet computer, a circuit board of an electronic device such as a circuit board in a television, and the like, which needs signal connection and needs detachable fixation. Therefore, the connecting component 17 of the application can be applied to electronic devices such as notebook computers, mobile phones, tablet computers, televisions and the like.

As shown in fig. 2 or fig. 3, in order to save space, the data connection member 2 may have a plate-like structure, and the data connection member 2 has a first surface 21 on one side in the thickness direction thereof, and the first surface 21 is provided with a plurality of first data connection portions 23, where the first data connection portions 23 may be arranged according to the number of carriers 1 to be connected, for example, when two carriers 1 need to be connected, the first surface 21 may be provided with two first data connection portions 23, and when three carriers 1 need to be connected, the first surface 21 may be provided with three first data connection portions 23. The number of connection carriers 1 is required to be the same as the number of first data connections 23 of the first surface 21. The area of each first data connection portion 23 may be the same or different, and the area size of each first data connection portion 23 is set according to the area size of the corresponding second data connection portion 11. When connected, the first surface 21 can cover the plurality of second data connection parts 11 in the plurality of carriers 1, namely, the first surface 21 is connected with the plurality of carriers 1 in a surface-to-surface mode, and the orthographic projection area of the first surface 21 to the plurality of carriers 1 is larger than or equal to the total orthographic projection area of the plurality of carriers 1 to the first surface 21. Each first data connection 23 may correspond to one second data connection 11 of one carrier 1 and be data-connected.

The first data connection part 23 may include a plurality of signal connection parts arranged at intervals, the second data connection part 11 may include a plurality of signal connection parts corresponding to the plurality of signal connection parts, the signal connection parts may be signal pins, the signal pins may be pogo pins, the signal connection parts may be signal contacts, and the first data connection part 23 and the second data connection part 11 may be data-connected by means of abutting. The signal connection member may be a signal connection post, the signal connection portion may be a jack, or the like, and the first data connection portion 23 and the second data connection portion 11 may be connected to each other by plugging and unplugging.

The second data connection 11 of each carrier 1 of the plurality of carriers 1 to which the connection assembly 17 is connected is used for transmitting the same or different data signals, i.e. different carriers 1 may carry data signals from different chips, which carriers 1 may transmit different types of data signals depending on the chip carried. For example, the second data connection 11 of the first carrier may transmit data signals generated by the graphics processor GPU (Graphics Processing Unit), the second data connection 11 of the second carrier may transmit data signals generated by the central processor CPU (Central Processing Unit) or the GPU, the second data connection 11 of the third carrier may transmit data signals generated by the neural network processor NPU (Neural Processing Unit) or the CPU or the GPU, and the second data connection 11 of the fourth carrier may transmit data signals generated by the random access memory RAM (Random Access Memory), the NPU, the CPU or the GPU, or the second data connection 11 of the plurality of carriers 1 may transmit data signals generated by the GPU. The data signals herein may be defined identically or differently as if they originate from the same chip (e.g., GPU, CPU or NPU), and as if they originate from different chips.

The connection component 17 provided by the application comprises the data connection piece 2, the plurality of first data connection parts 23 of the first surface 21 of the data connection piece 2 can be simultaneously connected with the second data connection parts 11 of the plurality of carriers 1 to communicate the plurality of second data connection parts 11, and the plurality of first data connection parts 23 belong to the first surface 21 of the same data connection piece 2 when the data connection is realized, so that the plurality of carriers 1 are relatively and detachably fixed. When a user needs to replace or upgrade a functional part on a certain carrier 1, the corresponding carrier 1 can be conveniently detached or installed through the connection assembly 17, and soldering pins and the like on the carrier 1 do not need to be soldered again.

In some modified embodiments of the first aspect of the present application, the first surface 21 is configured to abut against the plurality of carriers 1, the plurality of first data connection portions 23 are a plurality of first plate bodies 24, and when the first surface 21 abuts against the plurality of carriers 1, the orthographic projection area of the plurality of first plate bodies 24 onto the plurality of second data connection portions 11 of the plurality of carriers 1 is a first area, and the projection area of the plurality of second data connection portions 11 of the plurality of carriers 1 onto the plurality of first plate bodies 24 is a second area, the first area being the same as the second area.

Referring to fig. 1 and 2, the plurality of first data connection portions 23 are a plurality of first plate bodies 24, the areas of the plurality of first plate bodies 24 may be the same or different, the areas of the first plate bodies 24 may be set according to the areas of the corresponding second data connection portions 11, and the plurality of first plate bodies 24 and the plurality of second data connection portions 11 may be in one-to-one correspondence. The number of the first plates 24 may be determined according to the number of the second data connection parts 11, for example, when the number of the second data connection parts 11 is two, the number of the first plates 24 may be two, and when the number of the second data connection parts 11 is three, the number of the first plates 24 may be three. When the first surface 21 abuts against the plurality of carriers 1, the orthographic projection area of each first plate 24 to the second data connection portion 11 of the carrier 1 corresponding thereto and the orthographic projection area of the second data connection portion 11 of the carrier 1 to the first plate 24 corresponding thereto may be the same. The first plate 24 and the second data connection part 11 of the carrier 1 can be abutted through the surface, so that the consistency of the projection area between the first plate 24 and the second data connection part 11 is ensured, the stability and the reliability of signal transmission are improved, and better flexibility and adaptability are realized.

In some embodiments the connection assembly 17 may further comprise a first compression member 3 and a second compression member 4, the first compression member 3 having a first compression surface 31, the forward projected area of the first compression surface 31 towards the second compression member 4 covering at least a part of the area of the first data connection 23 and at least a part of the area of the second data connection 11, the second compression member 4 having a second compression surface 41, the forward projected area of the second compression surface 41 towards the first compression member 3 covering at least a part of the area of the first data connection 23 and at least a part of the area of the second data connection 11, wherein the forward projected area of the first compression surface 31 towards the second compression member 4 and the forward projected area of the second compression surface 41 towards the first compression member 3 at least partially overlap, the first compression member 3 and the second compression member 4 being detachably connected for providing a compression force to the data connection 2 and the carrier 1.

Referring to fig. 1, in order to save space, the first pressing member 3 and the second pressing member 4 may have a plate-like structure, and the first pressing member 3 and the second pressing member 4 may have any plate-like structure, such as a square, rectangular or polygonal plate-like structure. The first pressing member 3 and the second pressing member 4 are oppositely attached to the opposite surfaces of the data connecting member 2 and the carrier 1 along the thickness direction of the data connecting member 2.

As shown in fig. 1, the orthographic projection area of the first pressing surface 31 to the second pressing member 4 covers at least a part of the area of the first data connection portion 23 and at least a part of the area of the second data connection portion 11 of each carrier 1, that is, the first pressing surface 31 can cover a part of or the entire area of the first data connection portion 23 of the carrier 1, while the first pressing surface 31 can cover a part of or the entire area of the second data connection portion 11. The orthographic projection area of the second compression surface 41 onto the first compression member 3 covers at least part of the area of the first data connection 23 and at least part of the area of the second data connection 11 of each carrier 1, i.e. the second compression surface 41 can cover part or all of the area of the second data connection, while the second compression surface 41 can cover part or all of the area of the second data connection 11. The front projection area of the first pressing surface 31 towards the second pressing member 4 and the front projection area of the second pressing surface 41 towards the first pressing member 3 are partially overlapped, for example, the first pressing member 3 can be of a strip-shaped plate-shaped structure, the second pressing member 4 is of a plate-shaped structure with the area larger than that of the first pressing member 3 and capable of completely covering the square of the first pressing member 3, the front projection area of the first pressing surface 31 towards the second pressing member 4 and the front projection area of the second pressing surface 41 towards the first pressing member 3 are completely overlapped, for example, the first pressing member 3 and the second pressing member 4 can be of two square plate-shaped structures with the same area, which are oppositely arranged along the thickness direction of the data connecting member 2.

The first pressing part 3 and the second pressing part 4 are detachably connected, and the connection mode can be a detachable connection mode such as bolt connection, mortise-tenon connection or buckle connection. By applying the pressing force to the data link 2 and the carrier 1 by the first pressing member 3 and the second pressing member 4, the data link 2 can be more tightly attached to the carrier 1, and the data connection between the first data link portion 23 and the second data link portion 11 can be more stable.

In some embodiments, the data connection member 2 has a second surface 22 opposite to the first surface 21, and the plurality of elastic members 5 may be disposed on the first surface 21 or the second surface 22 of the data connection member 2, or may be disposed on the first surface 21 and the second surface 22, wherein the plurality of elastic members 5 of the first surface 21 and the plurality of elastic members 5 of the second surface 22 are configured to achieve elastic abutment.

Referring to fig. 3, the elastic member 5 is capable of being deformed when pressed and recovering after the pressure is removed, so as to maintain continuous pressure contact, and the elastic member 5 may be a spring needle, a spring sheet or other elastic metal component. The first surface 21 or the second surface 22 of the data connection 2 may be provided with a plurality of elastic members 5, or the first surface 21 and the second surface 22 may each be provided with a plurality of elastic members 5 of the same or different numbers. The plurality of first elastic members 515 of the first surface 21 are used to elastically abut against the plurality of second data connection portions 11 to achieve data connection, and by providing the elastic members 5 on the first surface 21, good connection between the data connection member 2 and the second data connection portions 11 can be maintained even in the case of slight vibration, thereby achieving stable data transmission. The elastic members 5 of the second surface 22 are used for abutting against the first pressing member 3, and can play a role of buffering under the condition of slight vibration.

In addition, as shown in fig. 1 or fig. 5, the elastic members 5 may be provided on both surfaces of the first plate 24 in the thickness direction, and the number of the elastic members 5 on both surfaces may be the same or different, and the elastic members 5 on one surface of the first plate may be used to elastically abut against the second data connection portion 11 to realize data connection, so that good connection between the first plate 24 and the second data connection portion 11 may be maintained even in the case of slight vibration, thereby realizing stable data transmission. The elastic member 5 on the other side of the second board 24 is used for abutting against the signal transmission board 18 to ensure that good signal transmission is maintained under slight vibration, and the signal transmission board 18 can communicate data signals of a plurality of first boards 24.

In some embodiments, the elastic member 5 of the first surface 21 is a first elastic member 515, the first elastic member 515 includes a first elastic arm 511 forming a first angle α with the first surface 21, a first fixed end 512 disposed at an end of the first elastic arm 511 and fixed to the first surface 21, and a first contact end 513 disposed at an end of the first elastic arm 511 opposite to the first fixed end 512, wherein a first predetermined distance is provided between the first contact end 513 and the first surface 21, the first elastic arm 511 is capable of deforming such that the first contact end 513 is close to or far from the first surface 21, the elastic member 5 of the second surface 22 is a second elastic member 525, the second elastic member 525 includes a second elastic arm 521 forming a second angle β with the second surface 22, a second fixed end 522 disposed at an end of the second elastic arm 521 and fixed to the second surface 22, and a second contact end 523 disposed at an end of the second elastic arm 521 opposite to the second fixed end, and a second predetermined distance is provided between the second contact end 523 and the second surface 22, and the second elastic arm 521 is capable of deforming such that the second contact end 523 is close to or far from the second surface 22.

Referring to fig. 3 to 5, one end of the first elastic arm 511 is a first fixed end 512, the first fixed end 512 may be fixed to the first surface 21 by welding, the other end of the first elastic arm 511 is a first contact end 513, and the first contact end 513 may be in point contact, surface contact or line contact with the first data connection portion 23. The first resilient arm 511 forms a first angle α with the first surface 21, and the first angle α may be any angle, such as 20 °, 30 °, 35 °, or the like. When the first elastic member 51 is pressed, the first elastic arm 511 can elastically deform to make the first included angle α between the first elastic arm 511 and the first surface 21 become larger or smaller, so that the first contact end 513 approaches or separates from the first surface 21. In addition, the width of the first elastic arm 511 may decrease from the first fixed end 512 to the first contact end 513, and the portion having a narrower width may be more easily deformed, so that the structure having a gradually narrower width may help to increase the elastic deformation capability of the first elastic arm 511 when it is subjected to an external force, thereby improving the elastic performance. Wherein the narrowest first contact end 513 can better accommodate small variations in the first surface 21, improving contact reliability and stability.

One end of the second elastic arm 521 is a second fixed end 522, the second fixed end 522 may be fixed on the second surface 22 by welding, the other end of the second elastic arm 521 is a second contact end 523, and the second contact end 523 may be in point contact, surface contact or line contact with the first pressing member 3 or the signal transmission plate 18. The second elastic arm 521 forms a second angle β with the second surface 22, and the second angle β may be any angle, such as 20 °, 30 °, 35 °, or the like. When the second elastic member 52 is pressed, the second elastic arm 521 can elastically deform to make the second angle β between the second elastic arm 521 and the second surface 22 larger or smaller, so that the second contact end 523 approaches or separates from the second surface 22. In addition, the width of the second elastic arm 521 may decrease from the second fixed end 522 to the second contact end 523, and the portion having a narrower width may be more easily deformed, so that the structure having a gradually narrower width may help to increase the elastic deformation capability thereof when the second elastic arm 521 is subjected to an external force, thereby improving the elastic performance. The second contact end 523 with the smallest width can better adapt to the small change of the first pressing piece 3 or the signal transmission plate 18, so that the contact reliability and stability are improved.

As shown in fig. 8, one of the carriers 1 is a main board body, and the other carriers 1 are sub-board bodies separated from the main board body, and the main board body may be provided with at least one receiving opening for receiving one or more sub-board bodies. The second data connection portion 11 of the main board body may be disposed around the accommodating opening, and the number of the one or more sub-board bodies in the accommodating opening and the number of the second data connection portions 11 around the accommodating opening of the main board body may be the same and one-to-one, so that the second data connection portion 11 of the main board body and the second data connection portion 11 of the sub-board bodies are in data connection through the data connection member 2. Through the accommodation mouth with the subplate body embedding mainboard body, can make the subplate body all be equipped with second data connecting portion 11 all around, can connect from a plurality of directions, increased the flexibility of overall arrangement.

The second aspect of the present application provides a carrier assembly, as shown in fig. 6, comprising a connection assembly 17, the connection assembly 17 comprising a data connection 2, the data connection 2 having a first surface 21, the first surface 21 having a plurality of first data connections 23 thereon, a plurality of carriers 1, each carrier 1 comprising at least one target function 12, the at least one target function 12 of a different carrier 1 being identical or different, each carrier 1 having a second data connection 11, the second data connection 11 of each carrier 1 being for transmitting data signals of the at least one target function 12, wherein the first surface 21 of the data connection 2 covers the plurality of second data connections 11 of the plurality of carriers 1, the plurality of first data connections 23 being in data connection with the plurality of second data connections 11 of the plurality of carriers 1, and the plurality of carriers 1 being in relatively fixed connection via the connection assembly 17.

The carrier component provided in this embodiment may be a motherboard of a notebook computer, a mobile phone motherboard, a tablet computer motherboard, or a motherboard of other electronic devices, etc. The plurality of carriers 1 may be a plurality of sub-boards into which one main board is divided, and each carrier 1 is provided with a target function 12, and the target function 12 refers to an electronic component or chip provided on the carrier 1 for realizing a specific function or processing a specific task. The target function 12 may be a different electronic component or integrated circuit, depending on the application scenario and design purpose of the carrier 1. The target function 12 may include, but is not limited to, CPU, GPU, RAM or NPU, etc. The number of the target functional parts 12 of each carrier 1 can be set according to actual needs, and the types of the plurality of target functional parts 12 can be the same or different, for example, one carrier 1 can comprise 2 GPUs, the other carrier 1 can comprise 1 CPU, or one carrier 1 can comprise one RAM, the other carrier 1 can comprise one GPU, the other carrier 1 can comprise 2 CPUs, or three carriers 1 can be provided with one GPU and the like.

Each carrier 1 may have one or more second data connections 11, each second data connection 11 being capable of transmitting a data signal of one target function 12 or of a plurality of target functions 12 on the carrier 1. For example, one carrier 1 may comprise 2 GPUs, and 1 second data connection portion 11 may be provided on the carrier 1, where the second data connection portion 11 is capable of transmitting data signals of 2 GPUs on the carrier 1 at the same time, or one carrier 1 may be provided with one CPU and one GPU, and two second data connection portions 11 corresponding to the CPU and the GPU one by one respectively may be provided on the carrier 1, where the two second data connection portions 11 are used for transmitting data signals of the CPU or the GPU, respectively.

The carrier assembly provided in the second aspect of the present application detachably fixes a plurality of carriers 1 through the connection assembly 17, and realizes data connection of two carriers 1 through the cooperation of the first data connection member 2 and the second data connection part 11 on the carriers 1. When a user needs to replace or upgrade a functional part on a certain carrier 1, the corresponding carrier 1 can be conveniently detached or installed through the connection assembly 17, and soldering pins and the like on the carrier 1 do not need to be soldered again.

In some variant embodiments of the second aspect of the application, the carriers 1 comprise target edges 13, the target edges 13 being edges of the carriers 1 that are close to the second data connection 11, the target edges 13 of each carrier 1 of the plurality of carriers 1 being adjacent to one target edge 13 of the other carrier 1, and the plurality of carriers 1 satisfying the co-planar condition.

As shown in fig. 8, each carrier 1 may comprise one target edge 13 or a plurality of target edges 13, the target edge 13 of each carrier 1 being adjacent to one target edge 13 of the other carrier 1, i.e. the two target edges 13 may be brought together by abutment or a gap may be left between the two target edges 13, etc. By abutting the target edges 13 of the carrier 1 against each other and ensuring that the carrier 1 is coplanar, space can be efficiently utilized, reducing the space taken up by the overall carrier 1 assembly.

In some embodiments, the target edge 13 has locking portions 15, the locking portion 15 of each carrier 1 corresponding to one of the locking portions 15 of its adjacent carrier 1, and the carrier assembly comprises locking members 14, the two corresponding locking portions 15 being locked by one of the locking members 14.

As shown in fig. 6 to 7, each target edge 13 may be provided with one locking portion 15 or a plurality of locking portions 15, and the intervals between the plurality of locking portions 15 may be set according to actual needs. The locking portion 15 of each carrier 1 corresponds to the position and size of one locking portion 15 of its adjacent carrier 1. The locking portions 15 may be arc-shaped openings, square openings, oval openings, or the like, and two corresponding locking portions 15 may be enclosed to form a circular screw hole, a square screw hole, an oval screw hole, or the like. The two locking parts 15 corresponding to each other are locked by a locking member 14, which may be a bolt, which is screwed to the two locking parts 15. The reinforcement between the carriers 1 can be completed through the matching locking of the locking part 15 and the locking piece 14, so that the carriers 1 can be closely arranged, and occupied space is reduced.

In addition, the carrier may be provided with one fixing portion 6 or a plurality of fixing portions 6, and as shown in fig. 1, each fixing portion 6 may include one or a plurality of screw holes, and the positions of the screw holes may be disposed around the first data connection portion 23 or within the area of the first data connection portion 23, which is not particularly limited herein. The first pressing member 3 and the second pressing member 4 may have a plate-like structure, and the first pressing member 3 has a plurality of first locking regions 311 in one-to-one correspondence with the fixing portions 6 of the plurality of carriers 1, i.e., each first locking region 311 corresponds to a fixing portion 6 of one carrier 1. The second pressing member 4 has a plurality of second locking areas 411 corresponding to the fixing portions 6 of the plurality of carriers 1 one by one, that is, each second locking area 411 corresponds to the fixing portion 6 of one carrier 1, and the plurality of first locking areas 311 correspond to the plurality of second locking areas 411 and are detachably connected.

When the fixing portion 6 is provided with a screw hole, the first locking region 311 and the second locking region 411 may also be provided with screw holes corresponding to the fixing portion 6, and the locking member 16 is screwed with the screw holes by inserting the locking member 16 into the screw hole of the first locking region 311 of the first pressing member 3, the screw hole of the fixing portion 6 of the carrier 1, and the screw hole of the second pressing member 4, so that the first pressing member 3 and the second pressing member 4 are locked to achieve the pressing of the data link 2 and the plurality of carriers 1. By the threaded connection of the locking member 16 with the screw holes of the first pressing member 3, the fixing portion 6 of the carrier 1 and the second pressing member 4, good contact between the data connecting member 2 and the carrier 1 can be ensured, thereby improving stability of signal transmission. The design of the detachable connection makes assembly and maintenance more convenient, and the data connection piece 2 is convenient to replace or upgrade.

In addition, the fixed part 6 can be provided with an inserting hole, the first pressing piece 3 is provided with a connecting rod extending towards the second pressing piece 4, the second pressing piece 4 is provided with a groove corresponding to and adapting to the connecting rod, and the connecting rod of the first pressing piece 3 penetrates through the inserting hole of the fixed part 6 and is detachably connected with the second pressing piece 4 in a plug-in mode. The first pressing piece 3 and the second pressing piece 4 are connected in a plug-in mode, so that the assembly process is simplified, and the production efficiency is improved.

In addition, a sleeve matched with the locking member 16 may be disposed in the second locking region 411 of the second pressing member 4, the sleeve extends toward the first pressing member 3 and penetrates through the screw hole of the fixing portion 6, the locking member is in threaded connection with the sleeve, and the sleeve is disposed to achieve the effects of rapid assembly and positioning.

In some embodiments, the carrier assembly further comprises a heat dissipation module 7 disposed on the carrier 1 and used for dissipating heat of the target functional components 12, a power management module 8 disposed on the carrier 1 and in signal connection with at least one target functional component 12 and used for providing target voltage for the target functional components 12, a signal control module 9 disposed on the carrier 1 and in signal connection with at least one target functional component 12 and used for providing target signals for the target functional components 12, and a storage module 10 disposed on the carrier 1 and in signal connection with at least one target functional component 12 and used for storing operation data of the target functional components 12.

As shown in fig. 6, the heat dissipation module 7 may include a heat sink, a heat dissipation fan, a heat pipe, a water cooling system, etc. The cooling fin can be adhered to or fixed on the surface of the target functional piece 12 through screws, the cooling fan can be arranged on the cooling fin and connected with the main board through a power line, the rotating speed of the cooling fan is controlled by the main board, one end of the heat pipe is clung to the target functional piece 12, the other end of the heat pipe can be connected to the cooling fin or the radiator, cooling liquid is circulated through the cooling block of the target functional piece 12 through a water pump, and then the cooling liquid enters the radiator through a pipeline to dissipate heat.

The power management module 8 may include a voltage regulator (e.g., LDO, DC-DC converter), an inductor, a capacitor, etc., where the voltage regulator is connected to the target function 12 via a power line to provide a regulated voltage to the target function 12. The inductor and the capacitor are connected in series or in parallel with the voltage regulator and are used for filtering and smoothing the voltage to ensure voltage stability.

The signal control module 9 may include a clock generator, a signal amplifier, a signal isolator, etc. The clock generator can provide clock signals required by the target function 12 and is connected through a special clock line, the signal amplifier is used for amplifying signals output by the target function 12 and is connected through an input and output port, and the signal isolator is used for isolating signals between the target function 12 and an external circuit and is connected through a special signal line.

The memory module 10 may include DRAM, SRAM, flash memories or the like. The DRAM is connected with the target function 12 through a special data bus and an address bus, and the Flash memory is connected with the target function 12 through an SPI bus.

By these specific electronic components and connection means, it is ensured that the target function 12 (e.g. CPU, GPU, etc.) on the carrier 1 can be operated stably and with good performance.

The third aspect of the application provides an electronic device comprising a body having a receiving space for receiving a carrier assembly, the carrier assembly comprising a connection assembly 17, the connection assembly 17 comprising a data connection member 2, the data connection member 2 having a first surface 21, the first surface 21 having a plurality of first data connections 23 thereon, and a plurality of carriers 1, each carrier 1 comprising at least one target function 12, at least one target function 12 of a different carrier 1 being identical or different, each carrier 1 having a second data connection 11, the second data connection 11 of each carrier 1 being for transmitting data signals of the at least one target function 12, wherein the first surface 21 of the data connection member 2 covers the plurality of second data connections 11 of the plurality of carriers 1, the plurality of first data connections 23 being in data connection with the plurality of second data connections 11 of the plurality of carriers 1, and the plurality of carriers 1 being relatively fixedly connected by the connection assembly 17.

The embodiment 3 of the application provides an electronic device, which can be a notebook computer, a mobile phone, a tablet computer, a television or a video player and other electronic devices. The notebook computer is used for explanation, the body is a shell of the notebook computer and is provided with a containing space for containing the carrier component, and the size of the containing space can be set according to the size of the carrier component. The receiving space of the electronic device may be provided with one or more carrier members, the number of which is not particularly limited here.

The third aspect of the application provides an electronic device comprising a carrier assembly detachably secured by a connection assembly 17 and cooperating with a second data connection 11 on a carrier 1 via a first data connection 2 to effect data connection of two carriers 1. When a user needs to replace or upgrade a functional part on a certain carrier 1, the corresponding carrier 1 can be conveniently detached or installed through the connection assembly 17, and soldering pins and the like on the carrier 1 do not need to be soldered again.

It should be noted that, in the description of the present specification, the terms "upper," "lower," and the like indicate an orientation or a positional relationship based on the orientation or the positional relationship shown in the drawings, which are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element to be referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model, and the terms "connected," "mounted," "fixed," and the like should be construed broadly, and for example, "connected" may be a fixed connection, a detachable connection, or an integral connection, or may be directly connected, or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present specification, the terms "one embodiment," "some embodiments," "particular embodiments," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (10)

1. A connection assembly capable of relatively fixedly connecting a plurality of carriers, the connection assembly comprising:

A data connector having a first surface with a plurality of first data connections thereon for data connection with a plurality of second data connections in a plurality of carriers, the second data connections of each of the carriers being for the same or different data signals to be transmitted;

the first surface is capable of covering a plurality of the second data connections in a plurality of the carriers.

2. The connection assembly of claim 1, wherein,

The first surface is used for abutting against a plurality of carriers, and the plurality of first data connection parts are a plurality of first plate bodies;

When the first surface is in contact with a plurality of carriers, the orthographic projection areas of the plurality of first plate bodies to the plurality of second data connection parts of the plurality of carriers are a first area, the projection areas of the plurality of second data connection parts of the plurality of carriers to the plurality of first plate bodies are a second area, and the first area is the same as the second area.

3. The connection assembly of claim 2, further comprising:

A first pressing member and a second pressing member;

The first pressing piece is provided with a first pressing surface, and the orthographic projection area of the first pressing piece facing the second pressing piece covers at least part of the area of the first data connection part and at least part of the area of the second data connection part;

The second pressing piece is provided with a second pressing surface, and the orthographic projection area of the second pressing surface facing the first pressing piece covers at least part of the area of the first data connection part and at least part of the area of the second data connection part;

Wherein the orthographic projection area of the first pressing surface facing the second pressing member and the orthographic projection area of the second pressing surface facing the first pressing member at least partially overlap;

The first compression member and the second compression member are detachably connected for providing a compression force to the data connection member and the carrier.

4. A connection assembly according to any one of claims 1 to 3, wherein,

The data connection has a second surface opposite the first surface;

The plurality of elastic pieces are arranged on the first surface or the second surface of the data connecting piece or on the first surface and the second surface;

Wherein the plurality of elastic members of the first surface and the plurality of elastic members of the second surface are for achieving elastic abutment.

5. The connection assembly of claim 4, wherein,

The elastic piece of first surface is first elastic piece, first elastic piece includes:

the first elastic arm forms a first included angle with the first surface;

a first fixed end arranged at one end of the first elastic arm and fixed on the first surface, and

The first contact end is positioned at one end of the first elastic arm opposite to the first fixed end, and a first preset distance is arranged between the first contact end and the first surface;

the first elastic arm is capable of deforming so as to enable the first contact end to be close to or far away from the first surface;

The elastic piece of second surface is the second elastic piece, the second elastic piece includes:

the second elastic arm forms a second included angle with the second surface;

a second fixed end arranged at one end of the second elastic arm and fixed on the second surface, and

The second contact end is positioned at one end of the second elastic arm opposite to the second fixed end, and a second preset distance is arranged between the second contact end and the second surface;

the second resilient arm is capable of deforming to bring the second contact end closer to or farther from the second surface.

6. A carrier assembly, comprising:

A connection assembly including a data connection having a first surface with a plurality of first data connections thereon;

A plurality of carriers, each of said carriers comprising at least one target function, said at least one target function of a different one of said carriers being the same or different, each of said carriers having a second data connection, the second data connection of each of said carriers being for transmitting a data signal of said at least one target function;

The first surface of the data connecting piece covers a plurality of second data connecting parts in a plurality of carriers, the first data connecting parts are in data connection with the second data connecting parts of the carriers, and the carriers are relatively and fixedly connected through the connecting assembly.

7. The carrier assembly of claim 6, wherein the carrier assembly comprises a plurality of support members,

The carrier comprises a target edge, wherein the target edge is an edge, close to the second data connection part, in the carrier;

The target edge of each of the plurality of carriers is adjacent to the target edge of another carrier, and the plurality of carriers satisfy a co-planar condition.

8. The carrier assembly of claim 7, wherein the target edge has locking portions, each of the locking portions of the carriers corresponding to one of the locking portions of its adjacent carrier, the carrier assembly comprising:

And the locking parts are locked by one locking part.

9. The carrier assembly of claim 6, further comprising:

the heat dissipation module is arranged on the carrier and used for dissipating heat of the target functional piece;

A power management module arranged on the carrier and connected with at least one target function part signal for providing target voltage for the target function part, and

The signal control module is arranged on the carrier, is in signal connection with at least one target function piece and is used for providing a target signal for the target function piece;

and the storage module is arranged on the carrier, is in signal connection with at least one target function piece and is used for storing the operation data of the target function piece.

10. An electronic device, comprising:

a body having an accommodation space for accommodating a carrier assembly, the carrier assembly comprising:

a connection assembly including a data connection member having a first surface with a plurality of first data connections thereon, and

A plurality of carriers, each of said carriers comprising at least one target function, said at least one target function of a different one of said carriers being the same or different, each of said carriers having a second data connection, the second data connection of each of said carriers being for transmitting a data signal of said at least one target function;

The first surface of the data connecting piece covers a plurality of second data connecting parts in a plurality of carriers, the first data connecting parts are in data connection with the second data connecting parts of the carriers, and the carriers are relatively and fixedly connected through the connecting assembly.