CN111755881B

CN111755881B - Connecting device, system, identification method and identification device

Info

Publication number: CN111755881B
Application number: CN202010624035.8A
Authority: CN
Inventors: 张潇
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2020-06-30
Filing date: 2020-06-30
Publication date: 2022-08-19
Anticipated expiration: 2040-06-30
Also published as: CN111755881A

Abstract

The application discloses connecting device includes: a first connection assembly connectable with a device having a second connection assembly; the first identification component can be combined with the second identification component of the second connecting component for identification and is used for confirming the connection information; the connection information is used for representing the connection state between the first connection component and the second connection component. The application also discloses a connection system, an identification method and an identification device.

Description

Connecting device, system, identification method and identification device

Technical Field

The present disclosure relates to the field of mechanical structure connection, and more particularly, to a connection device, a connection system, an identification method, and an identification device.

Background

In the operation of connecting the apparatus and the device or the device and the device, there often occurs a problem that the connection state between the apparatus and the device or between the device and the device is abnormal. In the related art, in order to confirm whether the connection state between the device and the apparatus, and between the apparatus and the apparatus is normal, a lagging sampling check of the connection state, or a manual supervision mode during the connection operation is generally adopted. However, the above confirmation method for confirming the connection state has an effect that cannot be guaranteed and confirmation efficiency is low.

Disclosure of Invention

In view of the above problems, the present application provides a connection device, a connection system, an identification method, and an identification device.

The application provides a connecting device, can just confirm the connection state of two subassemblies fast at the moment that two subassemblies are connected and are assembled to the efficiency that connection state was confirmed between two subassemblies has been improved.

The technical scheme provided by the application is as follows:

the application provides a connection device: the method comprises the following steps:

a first connection assembly connectable with a device having a second connection assembly;

the first identification component can be combined with the second identification component of the second connecting component for identification and is used for confirming the connection information; the connection information is used for representing the connection state between the first connection component and the second connection component.

Optionally, the first identification component may be combined with the second identification component to obtain a combined component; the identification result of the combined component is used for confirming the connection information; or alternatively

The first identification result of the first identification component is used for being combined with the second identification result of the second identification component to obtain a combined result; and the combination result is used for confirming the connection information.

Optionally, the first identifier component includes a display identifier component, and the display identifier component includes at least one of:

a visually perceptible identification member attached to the first surface of the first coupling member; or

A visually perceptible pattern affixed to the first surface of the first connecting member; or

And the part which can be visually perceived and is positioned on the first surface is integrally formed with the first connecting component.

The application also discloses a connection system comprising

The first connecting device comprises a first connecting component and a first identification component;

the second connecting device comprises a second connecting component and a second identification component;

wherein the first connection assembly is connectable with a second connection assembly of the second connection device; the first identification component can be identified in combination with the second identification component to confirm connection information; the connection information is information indicating a connection state between the first connection component and the second connection component.

Optionally, the first identification component is disposed on the first surface of the first connection component;

the second identification component is arranged on a second surface of the second connecting component;

wherein the first surface and the second surface are oriented to satisfy the same condition if the first connecting member is connected with the second connecting member; the first identification component and the second identification component meet a coplanarity condition.

The application also discloses an identification method, which comprises the following steps:

if the first connecting assembly is connected with the second connecting assembly, the acquisition assembly acquires first identification information of the first identification assembly and second identification information of the second identification assembly, wherein the first identification assembly is arranged corresponding to the first connecting assembly, and the second identification assembly is arranged corresponding to the second connecting assembly;

the processing component identifies the first identification information and the second identification information in a combined mode and confirms connection information; the connection information is used for representing the connection state between the first connection component and the second connection component.

Optionally, the connection state includes:

whether the first connecting assembly and the second connecting assembly are sufficiently connected;

and/or whether the first connection assembly mates with the second connection assembly.

Optionally, the combining identifies the first identification information and the second identification information, and confirms the connection information, including:

identifying a combination result composed of the first identification information and the second identification information, and confirming the connection information;

or,

identifying the first identification information to obtain a first identification result; identifying the second identification information to obtain a second identification result; combining the first recognition result and the second recognition result to obtain a combined result; and processing the combination result to confirm the connection information.

Optionally, the combining and identifying the first identification information and the second identification information includes:

obtaining a first adjusting parameter corresponding to the first identification component and/or a second adjusting parameter corresponding to the second identification component;

adjusting the first identification information and/or the second identification information according to the first adjustment parameter and/or the second adjustment parameter to obtain first adjustment information and/or second adjustment information;

identifying the first adjustment information and the second identification information in combination, or identifying the first identification information and the second adjustment information in combination, or identifying the first adjustment information and the second adjustment information in combination;

the first identification component and the second identification component are display identification components, and the first adjustment parameter and the second adjustment parameter correspond to the position relationships among the first identification component, the second identification component and the acquisition component.

The application also discloses an identification device, include:

the acquisition assembly is used for acquiring first identification information of a first identification assembly and second identification information of a second identification assembly under the condition that the first connection assembly is connected with the second connection assembly, wherein the first identification assembly is arranged corresponding to the first connection assembly, and the second identification assembly is arranged corresponding to the second connection assembly;

the processing component is used for identifying the first identification information and the second identification information in a combined mode and confirming connection information; the connection information is used for representing the connection state between the first connection component and the second connection component.

As described above, in the connection device provided in the present application, the first connection member can be connected to a device having the second connection member, and the first identification member can be identified by being combined with the second identification member of the second connection member, so as to confirm the connection state between the first connection member and the second connection member.

Therefore, the connecting device provided by the application can timely confirm the connection state between the first connecting assembly and the second connecting assembly when the first connecting assembly is connected with the second connecting assembly, so that the timeliness of confirmation of the connection state between the assemblies is improved, and the confirmation efficiency of the connection state between the assemblies is improved.

Drawings

Fig. 1 is a schematic diagram illustrating a physical connection between an interface connector reserved in a server and an external device in the related art;

FIG. 2 is a schematic diagram of a connection between Serial Attached Small Computer System Interface (SASI) lines on a Hard Disk Drive (Hard Disk Drive, HDD) backplane and a same Disk Array Card (Raid Card) in the related art;

FIG. 3 is a schematic structural view of a connecting device provided herein;

FIG. 4A is a schematic structural view of a first connection system provided herein;

FIG. 4B is a schematic view of a second connection system provided herein;

FIG. 4C is a schematic structural diagram of a third connection system provided herein;

FIG. 5 is a schematic flow chart of an identification method provided herein;

fig. 6 is a schematic view of a two-dimensional code confirmation prompt window provided in the present application;

fig. 7 is a schematic diagram of a scanning result matching result provided in the present application;

fig. 8 is a schematic structural diagram of an identification device provided in the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

It should be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad application.

The embodiment of the application provides a connecting device, a system, an identification method and an identification device.

In the case of connecting equipment and devices, and connecting devices and devices, there may be problems of insufficient connection, unstable connection, or no connection between the equipment and the devices, and therefore, timely and effective confirmation of the connection state is very important.

When connection operations between large-scale and various types of equipment and devices and between devices are performed, in the related art, connection states between the equipment and the devices and between the devices are usually detected and confirmed in a manner that a tester manually detects or performs sampling detection after the connection operations are finished. However, manual inspection is inefficient and the sampling check does not confirm the actual connection status of each connection.

For some electronic devices, such as servers, which handle massive data and are closely related to a large number of users, it is important to have a correct connection with peripheral devices or apparatuses. In practical applications, the problem of interfacing between the server and the peripheral devices is widespread, and the problems are mainly reflected in the following aspects:

fig. 1 is a schematic diagram showing a physical connection between an interface connector reserved for a server during development and design and an external device, for such an interface connector, in a server production process, a physical connection but an abnormal connection state may easily occur between the interface connector and the external device, for example, a loose connection state at two sides of the interface shown in fig. 1 may easily result in no electrical signal transmission between the interface connector and the external device; or, in the production process, the connection state is normal, and the normal transmission of the electric signal can be detected, but because the firmness of the connection of the two sides is not enough, the physical wiring between the interface connector and the external equipment is not flexible in the transportation process, and the server and the external equipment cannot normally communicate with each other.

The connection between the serial attached small computer system interface (SASI) line on the HDD backplane of FIG. 2 and the same Raid Card. As shown in FIG. 2, the SASI lines of the HDD backplane are numbered C0, C1, C2 and C3 from top to bottom, and the connection lines on the Raid Card side are numbered 1, 0, 3 and 2 from top to bottom.

The serial number on one side of the SASI line of the HDD backboard shown in FIG. 2 and the serial number on one side of the Raid Card do not have a sequentially increasing numbering rule, and the serial numbers on the two sides of the connection line do not have an obvious one-to-one correspondence relationship. Under the conditions of numerous server types, various interfaces and diversified external devices, the numbering method shown in fig. 2 is easy to cause the disordered and crossed connection of the same interface of the server and the external devices. Such a connection method also causes inconvenience to the maintenance of the after-sale server device, and the user experience is relatively poor.

In addition, for the personalization of the external device, such as the case of the external device which is partially independently designed and manufactured by the client, the interface connection state between the server and the external device needs to be determined by means of the firmware and the driver of the external device provided by the user. However, due to the privacy principle of the firmware proprietary to the client, the firmware of the client cannot be directly used to test the interface connection state in the production process of the server.

Based on the above situations, in the production process of the server, whether the interface connection state between the server and the external device is normal or not and whether the interface connection position is correct or not cannot be timely and effectively confirmed. Therefore, in the process of producing and assembling the server, the interface between the server and the peripheral device is easily neglected or the interface is easily neglected, and the server with abnormal interface connection is directly delivered to the client, thereby causing the problem of client complaint.

In order to solve the above problems, the following schemes are generally adopted in the related art to implement:

firstly, through Quality Control (QC) personnel, visual Control is performed on the interface connection state between the server and the external device.

Second, at each interface on the server side and/or the peripheral side, a tag identifier, such as Port1, Port2, etc., is set for each interface.

And thirdly, purchasing a professional expensive interface connection testing instrument to test the interface connection state. For example, 100G interfaces/connection four-channel Small Form-factor Pluggable (QSFP) and a tooling computer can be purchased, and a professional test environment is established. And after the production of the server is finished, moving the server to the test environment to test the connection state.

However, the two previous methods for testing the connection status between the server and the external device both depend on manual operation of QC personnel, and no fool-proof mechanism is added, so that the management and control effect cannot be guaranteed, and the efficiency is low.

For the method that needs to purchase a professional test instrument and erect a professional test environment, the test environment needs the support of an expensive professional test instrument, and each test also needs the operation and judgment of professional testers, so the equipment cost and the labor cost are correspondingly increased; on the other hand, for a high-yield server production line, a large number of servers need to wait for testing outside a professional testing environment, and a bottleneck phenomenon is obvious, so that the production testing efficiency is seriously influenced.

To solve the problem that the technical scheme generates, the embodiment of the application provides a connecting device, and the connecting device can automatically and rapidly determine the connection state between two assemblies at the moment when two connecting assemblies are connected, so that the timeliness of the connection state determination between the two assemblies is improved, and the determination efficiency of the connection state between the assemblies is improved. Moreover, the online detection of QC personnel is not needed, so that the labor cost is saved; expensive professional equipment does not need to be purchased, and a professional testing environment does not need to be erected, so that the equipment cost is saved; since there is no need to perform a delayed connection state verification operation after the end of the connection operation, time cost is saved.

The connection device 3 provided by the embodiment of the present application, as shown in fig. 3, may include a first connection component 31 and a first identification component 32. Wherein:

a first connection assembly 31 connectable with a device having a second connection assembly; the first identification component 32 can be identified by combining with the second identification component of the second connection component, and is used for confirming connection information, wherein the connection information is information representing the connection state between the first connection component and the second connection component.

In one embodiment, the connection device 3 may represent a device on the side of the electronic apparatus.

In one embodiment, the connection device 3 may represent a device on the side of the electronic device that needs to be connected to an external device.

In one embodiment, the connection device 3 may represent a device of an external device on the side opposite to the electronic device.

In one embodiment, the connection device 3 may represent a device that needs to be connected to the electronic device, which is an external device on the side opposite to the electronic device.

In one embodiment, the connection device 3 may represent a connection device having a certain interface type, wherein the interface type may represent a serial interface type or a parallel interface type; the interface type may represent a data interface, and may also represent a power supply interface.

In one embodiment, the connection device 3 may be provided with at least one connection port.

In one embodiment, the electronic device may be a device provided with at least one connection device 3.

In one embodiment, the electronic device may represent a computer device having at least one connection device 3.

In one embodiment, the electronic device may represent an embedded device having at least one connection apparatus 3.

In one embodiment, the electronic device may be a host computer device including at least one connection device 3.

In one embodiment, the electronic device may represent a server device.

In one embodiment, the first connection component 31 may represent a hardware interface component in the connection apparatus 3.

In one embodiment, the first connection component 31 may represent a component of the connection apparatus 3 that wraps a hardware interface.

In one embodiment, the first connection component 31 may represent a component having at least one type of interface.

In one embodiment, the first connection module 31 may represent a connection module having a plurality of external connection lines.

In an embodiment, the second connection component may represent a hardware interface component of a type corresponding to the first connection component 31, for example, the number of pins of the second connection component is equal to the number of pins of the first connection component 31.

In one embodiment, the second connection component may represent a hardware interface component corresponding to the function of the first connection component 31, for example, the first connection component 31 is used for transmitting data, and the second connection component is used for receiving data.

In one embodiment, the apparatus having the second connecting component may represent an apparatus corresponding to the electronic device, such as an image capturing apparatus, capable of data transmission with the electronic device.

In one embodiment, the device having the second connecting assembly may represent an external device of the electronic apparatus, and the external device may be a device capable of providing energy input for the electronic apparatus, such as a power supply device.

In one embodiment, the device having the second connecting component may represent an external device of the electronic device, and the external device can provide data access function for the electronic device, such as a data exchange device.

In one embodiment, the device with the second connecting assembly may represent a device capable of supervising and/or controlling the operating state of the electronic apparatus.

In one embodiment, the first identification component 32 may represent an identification component disposed on a surface of the first connection component 31.

Accordingly, the second identification component may represent an identification component disposed on a surface of the second connection component.

In one embodiment, the first identification component 32 may represent an identification component disposed on a specific surface of the first connection component 31.

Accordingly, the second identification member may represent an identification member disposed on a specific surface of the second connection member.

In one embodiment, the first identification component 32 and the second identification component may represent identification components having specific geometric shapes and carrying specific information. Wherein, the specific geometric shape can represent any one of a circle, a rectangle or a square; the specific information may be identification information of the connection device 3.

In one embodiment, the first identification component 32 and the second identification component may represent identification components having a specific geometric shape and carrying specific information of a specific type.

Illustratively, a particular type may represent a visually discernable type.

Illustratively, the particular type may represent a type in which sound is discernible, e.g., in certain cases, sound may be emitted. The utterable sound may have a certain voice data and may have a specific tone/frequency.

Illustratively, a particular type may represent a tactilely discernable type, such as a bump, or a type having a certain solid geometry.

In one embodiment, the first identification component 32 may include a plurality of identification components, wherein the plurality of identification components may be respectively disposed on each surface of the first connection component 31, and may also be disposed on a specific surface of the first connection component.

Accordingly, the second identification component may include a plurality of identification components, wherein the plurality of identification components may be respectively disposed on a plurality of surfaces of the second connection component, and may also be disposed on one specific surface of the second connection component.

In one embodiment, the first connecting element 31 can be connected to a device having a second connecting element, which may mean that the first connecting element 31 can be electrically connected to the device having the second connecting element.

In one embodiment, the first connection assembly 31 can be connected with a device having a second connection assembly, which may mean that the first connection assembly 31 can be connected with a device having a second connection assembly in a specific pattern. Illustratively, the first connecting member 31 may be connected with a device having the second connecting member in various modes.

In one embodiment, the connection information may indicate whether the first connection assembly 31 is normally connected to the device having the second connection assembly.

In one embodiment, the connection information may indicate whether the first connection component 31 is connected to a device having the second connection component.

In one embodiment, the first identification component 32 can be identified in combination with the second identification component of the second connection component, and the first identification component 32 and the second identification component may be identified in combination after the first connection component 31 is connected to the device including the second connection component.

As described above, in the connecting device 3 according to the embodiment of the present application, the first connecting member 31 can be connected to a device having the second connecting member, and the first identification member 32 can be identified by being combined with the second identification member of the second connecting member, so as to confirm the connection state between the first connecting member and the second connecting member.

Therefore, when the first connecting component 31 is connected to the second connecting component, the connecting device 3 provided in the embodiment of the present application can timely confirm the connection state between the first connecting component 31 and the second connecting component by identifying the combination of the first identification component 32 and the second identification component, thereby improving the efficiency of confirming the connection state between the components.

Based on the foregoing embodiments, the present application provides a connection device 3. Wherein:

a first identification component 32, which can be combined with a second identification component to obtain a combined component; the identification result of the combined component is used for confirming the connection information; or,

the first recognition result of the first identification component 32 is used for being combined with the second recognition result of the second identification component to obtain a combined result; the combined result is used to confirm the connection information.

In one embodiment, the combination component may represent a component obtained by combining the first identification component 32 and the second identification component when the first connection component 31 and the second connection component are correctly connected.

Accordingly, in this case, the combination component may indicate a proper connection between the first connection component 31 and the second connection component.

In one embodiment, a combined component may mean a component that can be identified only when the first connecting component 31 and the second connecting component 32 are combined together. Illustratively, the first identification component 32 may represent a first portion of a complete two-dimensional code, and the second identification component may represent a second portion of a complete two-dimensional code; when the types of the first connecting assembly 31 and the second connecting assembly 32 are matched and the connection state is normal, the first part and the second part of the two-dimensional code can be spliced into a complete two-dimensional code, namely a combined assembly, and at the moment, the combined assembly can be correctly identified; on the contrary, if the types of the first connecting assembly 31 and the second connecting assembly 32 are not matched or the connection state is abnormal, the splicing result obtained by splicing the first part and the second part of the two-dimensional code cannot be identified.

Illustratively, in one embodiment, the first identification component 31 may be combined with the second identification component in a particular manner in the event that the first connection component 31 is properly connected with the second connection component.

Illustratively, in a particular manner, it can be stated that the first identification component 31 can be seamlessly combined with the second identification component.

Illustratively, in a particular manner, it may be indicated that a particular portion of the first identification component 31 overlaps with a particular portion of the second identification component.

In one embodiment, the combination component may represent a component obtained by combining the first identification component 32 and the second identification component when the first connection component 31 and the second connection component are not correctly connected.

Accordingly, in this case, the combination component may indicate that the connection between the first connection component 31 and the second connection component is not correct.

In one embodiment, the recognition result of the composite component may represent a recognition result of a specific area of the composite component.

In one embodiment, the recognition result of the composite component may represent a recognition result of the entire region of the composite component.

In one embodiment, the recognition result of the combination unit may represent a recognition result of a region having a specific feature in the combination unit. The area with specific characteristics may include at least one of the following: areas of a particular color in the composite assembly, areas within a particular geometric shape, such as a circle, in the composite assembly.

In one embodiment, the identification result of the combination module may represent an identification result obtained by processing the first region in the combination module to obtain a first region processing result, and performing combination identification with the second region. The active area of the combined assembly comprises a first area and a second area. Illustratively, the first region may represent an area of insufficient definition in the composite assembly.

In one embodiment, the first recognition result may represent a result of recognizing the first identification component 32. Illustratively, recognizing the first identification component 32 may include image recognizing the first identification component 32.

In one embodiment, when the first connecting component 31 is connected to the second connecting component, the first identification components 32 are respectively identified to obtain a first identification result; and identifying the second identification component to obtain a second identification result, and combining the first identification result and the second identification result to obtain a combined result. Illustratively, the connection of the first connecting component 31 and the second connecting component may indicate that the first connecting component 31 and the second connecting component are connected correctly or are not connected correctly.

In one embodiment, confirming the connection information based on the combination result may be implemented by:

and combining the first information carried in the first identification result with the second information carried in the second identification result to obtain a combined result, and confirming the connection information according to the information carried in the combined result. For example, the first information carried by the first recognition result is "the connection device a needs to be connected to the device with the identifier a", the second information carried by the second recognition result is "the identifier a of the current device", at this time, the first information and the second information are combined, and the obtained combination result may be "the identifier a of the device to which the connection device a needs to be connected and the identifier a of the currently connected device", and the confirmed connection information is "the connection device a and the device with the identifier a are currently in the normal connection state".

In one embodiment, the identification of the combined component to obtain the identification result for confirming the connection information, and/or the confirmation of the connection information based on the combined result may be implemented by a device having a scan identification function. After the connecting device is connected with the second connecting component, the scanning and identifying device with the scanning and identifying function can be used for scanning and identifying the area where the first identification component and the second identification component are located.

In one embodiment, the device with the scan recognition function may be an image acquisition device. The image acquisition device can comprise any one of a plane image acquisition device and a depth image acquisition device.

In one embodiment, the device with the scanning recognition function may be a device with infrared transmission and reception functions, such as an infrared camera.

In one embodiment, the device with the scanning and identifying functions may be a barcode scanner.

In one embodiment, the device with the scanning recognition function may be a two-dimensional code scanning recognizer.

In one embodiment, the first identification component 32 may include a display identification component, wherein the display identification component includes at least one of:

a visually perceptible marking member attached to a first surface of the first coupling member 31; or

A visually perceptible pattern attached to the first surface of the first coupling member 31; or

Integrally formed with the first connecting member 31, is located on a visually perceptible portion of the first surface.

In one embodiment, the first surface of the first connecting member 31 may be a relatively large surface of the first connecting member 31.

In one embodiment, the visually perceptible identification component may represent a visually recognizable or distinguishable identification component.

In one embodiment, the visually perceptible identification component may represent a bar code, or two-dimensional code, that is visually recognizable or distinguishable.

In one embodiment, the visually perceptible indicia component may represent a three-dimensional pattern that is visually recognizable or distinguishable. Illustratively, the stereo pattern may be a combination of regularly distributed stereo patterns or a specific stereo pattern.

In one embodiment, attaching to a first surface of the first coupling component 31 may represent attaching the first identification component 32 to the first surface of the first coupling component 31.

In one embodiment, the first surface of the first connection member 31 to which the first identification member 32 is attached may be referred to as a first surface of the first connection member 31 to which the first identification member 32 is welded.

In one embodiment, the visually perceptible pattern may represent a particular pattern that is visually recognizable or distinguishable.

In one embodiment, the visually perceptible identification component may represent a particular planar geometry that can be visually recognized or resolved.

In one embodiment, the visually perceptible marking elements may represent a regular pattern of alternating specific shades of color.

In one embodiment, attaching to the first surface of the first coupling member 31 may mean spraying the first identification member 32 on the first surface of the first coupling member 31.

In one embodiment, the visually perceptible part may represent a local area of the first connection assembly 31 that is visually perceptible.

In one embodiment, the visually perceptible part may represent the entire area of the first surface of the first coupling component 31 that is visually perceptible.

In an embodiment, integrally formed with the first connection component 31, it may be indicated that the first identification component 32 is disposed on the first surface of the first connection component 31 by additive manufacturing on the basis of the first connection component 31.

In an embodiment, the integral formation with the first connecting component 31 may indicate that a relevant portion of the first identification component 32 is directly added during the production process of the first connecting component 31, so that the first connecting component 31 and the first identification component 32 are integrally produced.

In one embodiment, the first identification component and the second identification component may further include a wireless sensing component.

Illustratively, the wireless sensing component may mean a component capable of generating electromagnetic waves of a specific frequency under certain conditions. For example, a first wireless sensing element may be disposed on a first surface of the first connecting element 31, a second wireless sensing element may be disposed on a second surface of the second connecting element, and when the device with the scanning and identifying functions is close to the first connecting element 31 and the second connecting element after the first connecting element 31 is connected to the second connecting element, the first sensing element generates an electromagnetic wave with a first frequency, and the second sensing element generates an electromagnetic wave with a second frequency, and if the first frequency is the same as the second frequency, it may be indicated that the type of the first connecting element 31 is matched with the type of the second connecting element.

Exemplarily, if the first connecting component 31 and the second connecting component are connected normally, the first sensing component and the second sensing component can be connected in a specific manner, and when the device with the scanning and identifying functions approaches the two sensing components, an electromagnetic wave carrying specific information is emitted, or the electromagnetic wave is emitted at a specific time interval.

For example, if the connection state of the first connection component 31 and the second connection component is abnormal, the first sensing component and the second sensing component cannot be connected, and when the device with the scanning and recognizing function approaches the two sensing components, the device cannot emit electromagnetic waves carrying specific information or cannot emit electromagnetic waves at specific time intervals.

In one embodiment, the first identification component 32 and the second identification component may further include an audio component.

Illustratively, when the detection device identifies the first identification component 32 and the second identification component when the first connection component 31 is connected with the second connection component, the audio component in the first identification component and the audio component in the second identification component emit a sound matching the connection state according to the connection state of the first connection component 31 and the second connection component.

Illustratively, when the first identification component 32 and the second identification component are recognized when the connection state between the first connection component 31 and the second connection component is normal, the first identification component 32 and the second identification component can emit sounds of the same tone or frequency at the same time.

Correspondingly, if the connection state between the first connection component 31 and the second connection component is abnormal, when the first identification component 32 and the second identification component are identified, the first identification component 32 and the second identification component cannot emit sounds with the same tone or frequency at the same time.

As can be seen from the above, when the first connection component 31 and the second connection component in the connection device 3 provided in the embodiment of the present application are connected, the connection information between the first connection component 31 and the second connection component can be confirmed by identifying the combined component of the first identification component 32 and the second identification component, and the connection information can also be confirmed by combining the first identification result of the first identification component 32 and the second identification result of the second identification component to obtain the combined result. Also, the first identification member may include a visually perceptible identification member, a pattern, or a visually perceptible part integrally formed with the first connection member.

Therefore, at the time when the first connection component 31 and the second connection component in the connection device 3 provided in the embodiment of the present application are connected, the first identification component and the second identification component of multiple types may be identified by multiple different methods, so as to determine the connection state of the first connection component 31 and the second connection component in real time, and further, the connection state between the two connection components can be determined in real time and efficiently in a more flexible manner.

Based on the foregoing embodiments, the present application provides a connection system 4, as shown in fig. 4A, the connection system 4 includes a first connection device 3 and a second connection device 42, where:

a first connecting device 3 including a first connecting member 31 and a first identification member 32;

a second connection device 42 comprising a second connection component 421 and a second identification component 422;

wherein the first connecting assembly 31 can be connected with the second connecting assembly 421 of the second connecting device 42; the first identification component 32 can be identified in combination with the second identification component 422 to confirm the connection information; connection information indicating a connection state between the first connection unit 31 and the second connection unit 421.

The first connecting means 3 may, for example, be identical to the connecting means 3 described in the previous embodiments.

The second connecting means 42 may, for example, be identical to the connecting means 3 described in the previous embodiments. Accordingly, the second connection assembly 421 may be the same as the first connection assembly 31 described in the previous embodiment; the second identification component 422, may be the same as the first identification component 32.

In one embodiment, the first connecting device 3 may be a connecting device on one side of the electronic device, and correspondingly, the second connecting device 42 may be a connecting device on the opposite side of the electronic device.

In one embodiment, the second connecting device 42 may be a connecting device on one side of the electronic device, and correspondingly, the first connecting device 3 may be a connecting device on the side opposite to the electronic device.

In one embodiment, when the first connection component 31 is connected to the second connection component 421, the first identification component 32 can be combined with the second identification component 422 to obtain a combined component, and the combined component is identified to confirm the connection state between the first connection device 3 and the second connection device 42.

Illustratively, the composite component, which may be a planar or a stereoscopic visually-perceptible identification component; the combined component can also be an audio component or a wireless component.

In one embodiment, in the case that the first connection component 31 is connected to the second connection component 421, the first identification component 32 may be identified to obtain a first identification result; identifying the second identification component 422 to obtain a second identification result; and then combining the first recognition result and the second recognition result to obtain a combined result. The above combination result is used to confirm the connection state between the first connection device 3 and the second connection device 42.

As can be seen from the above, the first connection device 3 of the connection system 4 provided in the embodiment of the present application is provided with the first connection component 31 and the first identification component 32, and the second connection device 42 is provided with the second connection component 421 and the second identification component 422, when the first connection device 3 is connected to the second connection device 42, the connection state between the first connection device 3 and the second connection device 42 can be determined immediately through the first identification component 32 and the second identification component 422, so that the timeliness of connection state determination during connection between two connection devices is improved, the efficiency of connection state determination between connection devices is improved, and the time and cost of connection state determination are saved.

Based on the foregoing embodiments, the present application provides a connection system 4, in which the first identification component 32 is disposed on a first surface of the first connection component 31, and the second identification component 422 is disposed on a second surface of the second connection component 421. Wherein, if the first connection member 31 is connected with the second connection member 421, the first surface and the second surface are oriented to satisfy the same condition; wherein the first identification component 32 and the second identification component 422 satisfy a coplanarity condition.

In one embodiment, the first surface and the second surface are oriented to satisfy the same condition, which may mean that the first surface and the second surface face in the same direction, and exemplarily, in the same direction, which may mean that the first surface and the second surface both face in a vertically upward direction.

In one embodiment, the first identification component 32 and the second identification component 422 satisfy the coplanarity condition, which may indicate that the first identification component 32 and the second identification component 422 are in the same plane.

Alternatively, when the first connecting component 31 is connected to the second connecting component 421, the first identification component 32 and the second identification component 422 may not be in the same plane.

Exemplarily, fig. 4B is a schematic diagram of the connection system 4 provided in the embodiment of the present application. In fig. 4B, the first identification component 32 and the second identification component 422 are two parts of the complete two-dimensional code, respectively. The first identification member 32 may be disposed on the first connection member 31 in an attached or sprayed form, and the second identification member 422 may be disposed on the second connection member 421 in an attached or sprayed form.

Illustratively, fig. 4C is a schematic view of the connection system 4 provided in the embodiment of the present application. In fig. 4C, the first identification component 32 and the second identification component 422 are two parts of a complete two-dimensional code, and the first connection component 31 is correctly connected to the second connection component 412, at this time, the first identification component 32 and the second identification component 422 can be combined and identified, that is, the first identification component 32 and the second identification component 422 can form a complete two-dimensional code, and optionally, the connection information of the first connection component 31 and the second connection component 421 can be confirmed according to the identification result of the two-dimensional code obtained by combination.

Under the condition that the first connecting device 3 is a connecting device on one side of a server and the second connecting device 42 is a connecting device on one side of an external device of the server, at the moment that the first connecting assembly 31 is connected with the second connecting assembly 421, the connection state of the server and the external device can be rapidly confirmed through the combined recognition result of the first identification assembly 32 and the second identification assembly 422, so that the equipment cost caused by purchasing expensive test instruments and erecting a specific test environment in the related art is reduced, the labor cost caused by on-line detection of professional QC personnel is reduced, the time cost caused by delayed connection state confirmation is reduced, the final assembly effect of the server can be ensured, and the user experience is improved.

Therefore, in the connection system 4 provided by the embodiment of the present application, when the first connection device 3 is connected to the second connection device 42, the first identification component 32 and the second identification component 422 are oriented in the same direction, and a coplanar condition is satisfied, so that the first identification component 32 and the second identification component 422 are identified more quickly and more accurately, and the timeliness and the accuracy of the connection status confirmation between the first connection device 3 and the second connection device 42 are further enhanced.

Based on the foregoing embodiments, an identification method is provided in the embodiments of the present application, and as shown in fig. 5, the identification method may include the following steps:

step 501, if the first connecting component is connected with the second connecting component, the collecting component obtains first identification information of the first identification component and second identification information of the second identification component.

The first identification component is arranged corresponding to the first connecting component, and the second identification component is arranged corresponding to the second connecting component.

In one embodiment, the first connecting component may be the first connecting component 31 or the second connecting component 421 described in the previous embodiments.

Accordingly, the second connecting assembly may be the second connecting assembly 412 or the first connecting assembly 31 as described in the previous embodiments.

In one embodiment, the first identification component may be the first identification component 32 or the second identification component 32 as described in the previous embodiments.

Accordingly, the second identification component, may be the second identification component 422 or the first identification component 32 as described in the previous embodiments.

In one embodiment, the first identification information and the second identification information may be display identification information.

In one embodiment, the first identification information and the second identification information may be audio information or wireless information.

In one embodiment, the collection component may represent a component having collection and recognition functions.

In one embodiment, the acquisition component may represent a component with scan recognition functionality.

In one embodiment, the acquisition component may be an image acquisition component. The image acquisition assembly can comprise any one of a plane image acquisition device and a depth image acquisition device.

In one embodiment, the collection assembly may be a device with infrared transmission and reception capabilities, such as an infrared camera.

In one embodiment, the acquisition component may be a bar code scanner or a two-dimensional code scanning identifier.

In one embodiment, the collection assembly may be disposed opposite to a first surface of the first connection assembly and a second surface of the second connection assembly, and illustratively, the first identification assembly may be disposed on the first surface of the first connection assembly and the second identification assembly may be disposed on the second surface of the second connection assembly. So, when first connecting elements was connected with the second coupling assembling, the information that acquisition component can convenient and fast acquire first sign subassembly and second sign subassembly and carry.

In one embodiment, the collecting assembly may maintain a specific distance between the first connecting assembly and the second connecting assembly in the connected state, and the specific distance may be adjusted within a certain distance range, for example, from 20 cm to 3 cm, so that the collecting effect of the collecting assembly may be improved.

In one embodiment, the first identification component may be disposed on a first surface of the first connection component, and the second identification component may be disposed on a second surface of the second connection component, and when the first connection component and the second connection component are correctly connected, the first surface and the second surface are oriented in the same direction and satisfy the coplanar condition.

Step 502, the processing component identifies the first identification information and the second identification information in a combined manner, and confirms the connection information.

The connection information is used for representing the connection state between the first connection assembly and the second connection assembly.

In one embodiment, the processing component can receive the first identification information and the second identification information sent by the acquisition component.

It should be noted that the functions of the acquisition component and the processing component provided in the embodiments of the present application may be implemented by a processor.

The processor may be at least one of an application specific integrated circuit ASIC, DSP, DSPD, PLD, FPGA, CPU, controller, microcontroller, and microprocessor. It is to be understood that the electronic device for implementing the above-mentioned processor function may be other electronic devices, and the embodiments of the present invention are not particularly limited.

As can be seen from the above, in the identification method provided in the embodiment of the present application, when the first connection component is connected to the second connection component, the first identification information of the first identification component and the second identification information of the second identification component may be acquired through the acquisition component; and the processing component can quickly confirm the connection state of the first connection component and the second connection component according to the received first identification information and the second identification information. Thereby realized confirming the high efficiency of coupling assembling connection status.

Based on the foregoing embodiment, in the identification method provided in the embodiment of the present application, the connection state includes whether the first connection component and the second connection component are sufficiently connected; and/or whether the first connection assembly mates with the second connection assembly.

In one embodiment, whether the first connection component and the second connection component are sufficiently connected may indicate whether the tightness of the hardware interface connection between the first connection component and the second connection component is sufficient.

In one embodiment, whether the first connecting member and the second connecting member are sufficiently connected may indicate whether normal and stable signal transmission between the first connecting member and the second connecting member may be changed by slight vibration of the first connecting member and/or the second connecting member.

In one embodiment, whether the first connection component matches the second connection component may indicate whether the target component that needs to be connected to the first connection component is the second connection component.

In one embodiment, whether the first connection component matches the second connection component may indicate whether the types of the first connection component and the second connection component match, for example, the first connection component is a data communication component, and the second connection component is a device power supply component.

In an implementation manner, step 502 in the identification method provided by the embodiment of the present application may be implemented by the following manner:

and identifying a combination result consisting of the first identification information and the second identification information, and confirming the connection information.

Or,

In one embodiment, identifying the combination of the first identification information and the second identification information and confirming the connection information may be implemented by:

the processing component may combine the first identification information and the second identification information to obtain a combined result, and then confirm the connection information according to the combined result.

In one embodiment, first identification information is identified, and a first identification result is obtained; identifying the second identification information to obtain a second identification result; combining the first recognition result and the second recognition result to obtain a combined result; the processing of the combined result, confirming the connection information, may be implemented by:

the processing component can process the first identification information to obtain a first identification result, process the second identification information to obtain a second identification result, combine the first identification result and the second identification result to obtain a combined result, and then confirm the connection information according to the combined result.

In an implementation manner, step 502 in the identification method provided in the embodiment of the present application may further include the following steps:

and A1, obtaining a first adjusting parameter corresponding to the first identification component and/or a second adjusting parameter corresponding to the second identification component.

In an embodiment, the first adjustment parameter corresponding to the first identifier component may indicate whether the first acquisition parameter needs to be adjusted when the acquisition component acquires the first identifier component. The first acquisition parameter may represent a parameter according to which the acquisition component acquires the first identification component.

In an embodiment, the second adjustment parameter corresponding to the second identifier component may indicate whether the second acquisition parameter needs to be adjusted when the acquisition component acquires the second identifier component. The second acquisition parameter may represent a parameter according to which the acquisition component acquires the second identification component.

In an embodiment, the first adjustment parameter corresponding to the first identifier component may indicate how the acquisition component adjusts the first acquisition parameter when acquiring the first identifier component. The adjustment of the first acquisition parameter may include adjustment of a distance between the acquisition component and the first identification component, or adjustment of sharpness of the acquired image.

In an embodiment, the second adjustment parameter corresponding to the second identifier component may indicate how to adjust the second acquisition parameter when the acquisition component acquires the second identifier component. The adjustment of the second acquisition parameter may include adjustment of a distance between the acquisition component and the second identification component, or adjustment of definition of the acquired image.

In an embodiment, the first adjustment parameter corresponding to the first identifier component may represent a parameter for adjusting an obtained first acquisition result when the acquisition component acquires the first identifier component. The parameter for adjusting the first acquisition result may include enlarging or reducing the first acquisition result, or determining a target region or a target feature from the first acquisition result.

In an embodiment, the second adjustment parameter corresponding to the second identifier component may represent a parameter for adjusting an obtained second acquisition result when the acquisition component acquires the second identifier component. The parameter for adjusting the second acquisition result may include enlarging or reducing the second acquisition result, or determining a target region or a target feature from the second acquisition result.

Step a2, adjusting the first identification information and/or the second identification information according to the first adjustment parameter and/or the second adjustment parameter, and obtaining the first adjustment information and/or the second adjustment information.

In one embodiment, the first adjustment information and/or the second adjustment information may indicate an adjustment result of the first identification information and/or the second identification information.

In an embodiment, adjusting the first identification information and/or the second identification information according to the first adjustment parameter and/or the second adjustment parameter may be implemented by:

and adjusting a first recognition result and/or a second recognition result corresponding to the first identification information and/or the second identification information according to the first adjustment parameter and/or the second adjustment parameter. Illustratively, adjusting the first identification result and/or the second identification result may include zooming in, zooming out, locking on a local region, locking on a target feature, and/or the like on the first identification result.

and adjusting the distance between the acquisition device and the first identification information and/or the second identification information according to the first adjustment parameter and/or the second adjustment parameter.

and adjusting the frequency of the acquisition device for acquiring the first identification information and/or the second identification information according to the first adjustment parameter and/or the second adjustment parameter.

and adjusting the brightness of the acquisition device when acquiring the first identification information and/or the second identification information according to the first adjustment parameter and/or the second adjustment parameter.

and adjusting the repetition times of the acquisition device for acquiring the same first identification information and/or the second identification information according to the first adjustment parameter and/or the second adjustment parameter.

Step a3, identifying the first adjustment information and the second identification information in combination, or identifying the first identification information and the second adjustment information in combination, or identifying the first adjustment information and the second adjustment information in combination.

The first identification component and the second identification component are display identification components, and the first adjustment parameter and the second adjustment parameter correspond to the position relations of the first identification component, the second identification component and the acquisition component.

In an embodiment, the combination of the first adjustment information and the second identification information may indicate that the acquisition component adjusts a first acquisition parameter corresponding to the first identification component when acquiring the first identification component, acquires the first identification component according to the adjusted first acquisition parameter, obtains the first adjustment information, and then confirms the connection information based on the first adjustment information and the second identification information.

In an embodiment, the combination of the first identification information and the second adjustment information may indicate that the acquisition component adjusts the second acquisition parameter when acquiring the second identification information, acquires the second component according to the adjusted second acquisition parameter to obtain the second adjustment information, and then confirms the connection information based on the second adjustment information and the first identification information.

In an embodiment, the combination identification of the first adjustment information and the second adjustment information may indicate that the acquisition component adjusts both the first acquisition parameter and the second acquisition parameter when acquiring the first identification information and the second identification information, so as to obtain the adjusted first acquisition parameter and second acquisition parameter, and control the acquisition component to respectively acquire the first identification information and the second identification information according to the acquired first acquisition parameter and the adjusted second acquisition parameter, so as to obtain the first adjustment information and the second adjustment information, and then, the combination identification of the first adjustment information and the second adjustment information confirms the connection information.

In an embodiment, the first adjustment parameter and the second adjustment parameter correspond to a position relationship between the first identifier component, the second identifier component, and the collection component, and may indicate that, when the first connection component is connected to the second connection component, and the first identifier component and the second identifier component are oriented in the same direction, the first identifier component and the second identifier component are not in the same plane, that is, the first identifier component and the second identifier component have a distance difference with respect to the collection component. At this time, the distance difference can be weakened or compensated by adjusting the first acquisition parameter and/or the second acquisition parameter by the acquisition component, so as to improve the acquisition effect of the acquisition component.

Optionally, with the identification method provided in the embodiment of the present application, when determining the connection relationship between the first connecting device 3 and the second connecting device 42 in fig. 4C, the two-dimensional code after the combination of the second identification component 32 and the second identification component 422 may be acquired by an acquisition device.

For example, in order to set two portions of the two-dimensional code on the first surface of the first connecting assembly 31 and the second surface of the second connecting assembly 421 respectively, and to improve the collecting effect of the collecting assembly, the layout of the first surface of the first connecting assembly 31 and the second surface of the second connecting assembly 421 may be designed reasonably, and a certain area is reserved for the setting of the two-dimensional code.

Illustratively, the content of the two-dimensional code may be designed as a slot number, or a Positive And negative Pin (PN). Optionally, the above information may be stored in a corresponding Bill of Material (BOM) file, or a top file.

Illustratively, when the collection component is ready to collect the first identification component 32 and the second identification component 422, prompt information may be further output on a collection component interface through a written test script, for example, the prompt information may be a two-dimensional code confirmation prompt window as shown in fig. 6, the collection device preliminarily collects the second identification component 32 and the second connection component 422, may determine whether to adjust the first collection parameter and the second collection parameter, and collects the first identification information 32 and the second identification information 422 according to the latest first collection parameter and the latest second collection parameter, to obtain encrypted data, as shown in "a x" in fig. 6, and illustratively, by means of encryption, modification of a scanning result caused by a wrong operation of a tester may be reduced.

For example, the result obtained by scanning may be sent to a background test program, after the background test program obtains the scanning result, the scanning result is compared with an expected result, and if the scanning result and the expected result are not consistent, a prompt of "input two-dimensional code error" as shown in fig. 7 is automatically output, at this time, reconfirmation of the connection state between the first connection device 3 and the second connection device 42 may be selected; if they are the same, it indicates that the connection state between the first connecting device 3 and the second connecting device 42 is normal, or the first connecting device 3 and the second connecting device 42 are matched in type.

As can be seen from the above, in the identification method provided in the embodiment of the present application, through the identification of the first identification information and the second identification information by the processing component, it can be determined whether the first connection component and the second connection component are sufficiently connected, and whether the first connection component and the second connection component are matched; in addition, in the process of identifying the first identification information and the second identification information in a combined manner, the first identification component and/or the second identification component can be adjusted, and the connection relationship between the first connection component and the second connection component is confirmed according to the adjustment result. Therefore, the identification method provided by the embodiment of the application can more flexibly detect the connection relation between the first connection component and the second connection component in real time under various conditions.

Based on the foregoing embodiments, the present application provides an identification apparatus 8, where the identification apparatus 8 includes an acquisition component 81 and a processing component 82; wherein:

the acquisition component 81 is used for acquiring first identification information of the first identification component and second identification information of the second identification component under the condition that the first connection component is connected with the second connection component, wherein the first identification component is arranged corresponding to the first connection component, and the second identification component is arranged corresponding to the second connection component;

a processing component 82 for identifying the first identification information and the second identification information in combination, and confirming the connection information; the connection information is used for representing the connection state between the first connection assembly and the second connection assembly.

Optionally, the connection state includes:

whether the first connecting assembly and the second connecting assembly are sufficiently connected or not;

Optionally, the processing component 82 is further configured to identify a combination result composed of the first identification information and the second identification information, and confirm the connection information;

or,

identifying the first identification information to obtain a first identification result; identifying the second identification information to obtain a second identification result; combining the first recognition result and the second recognition result to obtain a combined result; and processing the combined result to confirm the connection information.

Optionally, the processing component 82 is further configured to obtain a first adjustment parameter corresponding to the first identification component and/or a second adjustment parameter corresponding to the second identification component;

identifying the first adjustment information and the second identification information in a combination mode, or identifying the first identification information and the second adjustment information in a combination mode, or identifying the first adjustment information and the second adjustment information in a combination mode;

It should be noted that the acquisition component 81 and the processing component 82 in the identification apparatus 8 provided in the embodiment of the present application may be implemented by a processor.

The processor may be at least one of an application specific integrated circuit ASIC, DSP, DSPD, PLD, FPGA, CPU, controller, microcontroller, and microprocessor. It is understood that the electronic device for implementing the above processor function may be other electronic devices, and the embodiments of the present invention are not limited in particular.

As can be seen from the above, when the first connecting component is connected with the second connecting component, the identification device provided in the embodiment of the present application can acquire the first identification information of the first identification component and the second identification information of the second identification component through the acquisition component; and the processing component can quickly confirm the connection state of the first connection component and the second connection component according to the received first identification information and the second identification information, so that the connection state of the connection components can be quickly and efficiently confirmed.

In some embodiments, functions of or modules included in the apparatus provided in the embodiments of the present application may be used to execute the method described in the above method embodiments, and specific implementation thereof may refer to the description of the above method embodiments, and for brevity, will not be described again here.

The foregoing description of the various embodiments is intended to highlight various differences between the embodiments, and the same or similar parts may be referred to each other, and for brevity, will not be described again herein.

The methods disclosed in the method embodiments provided by the present application can be combined arbitrarily without conflict to obtain new method embodiments.

The features disclosed in the various product embodiments provided in the present application may be combined arbitrarily without conflict, to arrive at new product embodiments.

The features disclosed in the various method or apparatus embodiments provided herein may be combined in any combination to arrive at new method or apparatus embodiments without conflict.

The computer-readable storage medium may be a Read Only Memory (ROM), a Programmable Read Only Memory (PROM), an Erasable Programmable Read Only Memory (EPROM), an Electrically Erasable Programmable Read Only Memory (EEPROM), a magnetic Random Access Memory (FRAM), a Flash Memory (Flash Memory), a magnetic surface Memory, an optical Disc, or a Compact Disc Read-Only Memory (CD-ROM); and may be various electronic devices such as mobile phones, computers, tablet devices, personal digital assistants, etc., including one or any combination of the above-mentioned memories.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

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.

Through the description of the foregoing embodiments, it is clear to those skilled in the art that the method of the foregoing embodiments may be implemented by software plus a necessary general hardware platform, and certainly may also be implemented by hardware, but in many cases, the former is a better implementation. Based on such understanding, the technical solutions of the present application or portions thereof that contribute to the prior art may be embodied in the form of a software product, where the computer software product is stored in a storage medium (such as a ROM/RAM, a magnetic disk, and an optical disk), and includes several instructions for enabling a terminal device (which may be a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method described in the embodiments of the present application.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

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 modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application, or which are directly or indirectly applied to other related technical fields, are included in the scope of the present application.

Claims

1. A connection device, comprising:

the first identification component can be combined with the second identification component of the second connecting component for identification and is used for confirming the connection information; the connection information is used for representing the connection state between the first connection assembly and the second connection assembly;

the first information carried in the first identification result of the first identification component is used for being combined with the second information carried in the second identification result of the second identification component to obtain a combined result; the combination result is used for confirming the connection information; the first recognition result is used for representing the identification of the component which is correctly connected with the first connection component; the second recognition result is used for representing the identification of the second connecting component; the first recognition result is obtained based on recognition of a first identification component and the second recognition result is obtained based on recognition of a second identification component.

2. A connection system comprising

wherein the first connecting assembly is connectable with a second connecting assembly of the second connecting device; the first identification component can be identified in combination with the second identification component to confirm connection information; the connection information is used for representing the information of the connection state between the first connection assembly and the second connection assembly;

3. The connection system of claim 2,

the first identification component is arranged on a first surface of the first connecting component;

wherein the first surface and the second surface are oriented to satisfy the same condition if the first connecting member is connected with the second connecting member; the first identification component and the second identification component satisfy a coplanar condition.

4. An identification method, comprising:

if the first connecting assembly is connected with the second connecting assembly, the acquisition assembly acquires first identification information of a first identification assembly and second identification information of a second identification assembly, wherein the first identification assembly is arranged corresponding to the first connecting assembly, and the second identification assembly is arranged corresponding to the second connecting assembly;

the processing component identifies the first identification information and the second identification information in a combined manner, and confirms connection information, specifically: the processing component identifies the first identification information to obtain a first identification result; identifying the second identification information to obtain a second identification result; combining first information carried in the first identification result and second information carried in the second identification result to obtain a combined result; processing the combined result to confirm the connection information; the connection information is used for representing the connection state between the first connection component and the second connection component; the first recognition result is used for representing the identification of the component which is correctly connected with the first connection component; the second recognition result is used for representing the identification of the second connecting component; the first recognition result is obtained based on recognition of a first identification component and the second recognition result is obtained based on recognition of a second identification component.

5. The identification method of claim 4, the connection state, comprising:

whether there is sufficient connection between the first connection assembly and the second connection assembly.

6. The identification method of claim 4, the combined identification of the first identification information and the second identification information further comprising:

7. An identification device comprising:

the acquisition component is used for acquiring first identification information of the first identification component and second identification information of the second identification component under the condition that the first connecting component is connected with the second connecting component, wherein the first identification component is arranged corresponding to the first connecting component, and the second identification component is arranged corresponding to the second connecting component;

the processing component is used for identifying the first identification information and the second identification information in a combined mode and confirming connection information; the connection information is used for representing the connection state between the first connection component and the second connection component;

the processing component is further used for identifying the first identification information to obtain a first identification result; identifying the second identification information to obtain a second identification result; combining the first information carried in the first recognition result and the second information carried in the second recognition result to obtain a combined result; processing the combined result and confirming the connection information; the first recognition result is used for representing the identification of the component which is correctly connected with the first connection component; the second recognition result is used for representing the identification of the second connecting component; the first recognition result is obtained based on recognition of a first identification component and the second recognition result is obtained based on recognition of a second identification component.