CN115469613A - Fixing and mounting system for external plug-in card support of server - Google Patents

Abstract

The invention provides a fixed mounting system of a server external plug-in card bracket, which comprises: a support base and a PLC controller; a left limiting block is arranged at the first side part of the supporting base, and a left front supporting block and a right front supporting block are arranged between the front limiting block and the middle supporting block; a right rear supporting block and a left rear supporting block are arranged between the rear limiting block and the middle supporting block; the left limiting block is connected with a left limiting multistage stud which is connected with a left driving motor; the right limiting block is connected with a right limiting multistage stud which is connected with a right driving motor; the PLC controller respectively controls the left driving motor and the right driving motor to operate so as to realize the fixed installation of the external plug-in card support of the server. The development work and the development period of the tooling jig are simplified, and the drawing making period is compressed into simple operation of changing coordinates in a program. The number and types of the tool fixtures are reduced, and the tool fixtures are convenient to manage.

Description

Fixing and mounting system for external plug-in card support of server

Technical Field

The invention relates to the technical field of server Riser card installation operation, in particular to a fixed installation system for a server external card support.

Background

For standardizing the installation operation of the external plug-in card in the production of the server, the problems of damage and the like caused by errors of searching corresponding auxiliary tools and the installation operation are reduced, and the auxiliary tools are selected to be used for assisting when the external plug-in card is installed on the support so as to complete the installation of the external plug-in card.

Because the external plug-in cards are of more types, corresponding design is required for corresponding to the Riser cards and the supports, and therefore, a plurality of Riser cards and supports exist. Description of the drawings: the Riser card is installed on the support, and the outer plug-in card inserts on the Riser card after linking with the support, and after the support installation Riser card links with the quick-witted case with outer plug-in card after, the Riser card passes through the golden finger and inserts the mainboard, and some can adopt modes such as screw to fix.

Research shows that most of the current designs are distinguished by projects, tools which can be combined in the projects are combined and designed, but the design of cross projects lacks combination and uniform action.

According to the technical scheme of the prior art, the external plug-in card and support screw locking jig comprises a bottom plate, a baffle arranged on one side of the bottom plate, a supporting plate arranged on the upper portion of the bottom plate and a bearing panel arranged on the upper portion of the supporting plate, wherein the supporting plate is of a U-shaped structure, a plurality of supporting legs are arranged on the lower portion of the bottom plate, a first stop block is arranged on one side of the upper portion of the bottom plate, and a second stop block is arranged on one side of the upper portion of the bearing panel; the support lower extreme is placed on the bottom plate, and one side and the first dog lateral wall of support offset, and the rear portion and the baffle lateral wall of support offset, and the upper portion of support is placed on bearing panel. The first stop block and the baffle plate are arranged on the bottom plate to limit the bracket, and the second stop block is arranged on the bearing panel to position the external plug-in card, so that the quick positioning of the external plug-in card and the bracket is facilitated, the vertical locking attachment of the external plug-in card and the bracket is facilitated, and the assembly quality of the external plug-in card and the bracket is ensured.

Fig. 1 is a schematic structural view of an external plug-in card and bracket screw locking jig, and fig. 2 is a use state diagram of the external plug-in card and bracket screw locking jig. The side-to-side movement of 13 is achieved by adjusting 24 the movement 12 and the up-and-down movement of 13 is achieved by turning the scissor lift knob. Therefore, the screw attachment for adapting to various external plug-in cards or adapter cards is realized.

As can be seen from the prior art, the following disadvantages are present:

the function is single, the locking realization of the screw is only supported, and the supported external plug-in card type is limited by the structure, so that the universal requirement is difficult to achieve. The support cannot be fixed in an all-around manner, and the support can be fixed up and down, left and right, and has a risk of shaking forwards and backwards.

Lack the omnidirectional support to support fixed mode and fixed firmness, realize effectively not supporting to other functions. The intelligent adjustment capability is lacked, the manual adjustment accuracy is lacked, and the problem of poor matching performance is easily caused. The assembly process cannot be completed with process assistance.

Disclosure of Invention

The invention provides a server external card support fixed mounting system which reduces the number and types of tool fixtures and is convenient for the management of the tool fixtures, and the system comprises: a support base and a PLC controller;

a left limiting block is arranged at the first side part of the supporting base, and a right limiting block is arranged at the second side part of the supporting base;

a front limiting block and a rear limiting block are arranged between the left limiting block and the right limiting block;

a middle supporting block is arranged at the middle position close to the front limiting block and the rear limiting block;

a left front supporting block and a right front supporting block are arranged between the front limiting block and the middle supporting block;

a right rear supporting block and a left rear supporting block are arranged between the rear limiting block and the middle supporting block;

the left limiting block is connected with a left limiting multistage stud which is connected with a left driving motor;

the right limiting block is connected with a right limiting multistage stud which is connected with a right driving motor;

the PLC controller is respectively connected with the left driving motor and the right driving motor, receives the control instruction of the external plug-in card, and respectively controls the left driving motor and the right driving motor to operate so as to realize the fixed installation of the external plug-in card support of the server.

Further, the front limiting block is connected with a front limiting multistage stud which is connected with a front driving motor;

the rear limiting block is connected with a rear limiting multistage stud which is connected with a rear driving motor;

the PLC is connected with the front driving motor, controls the operation of the front driving motor and drives the front limiting block to lift;

the PLC controller is connected with the rear driving motor, controls the rear driving motor to operate, and drives the rear limiting block to lift.

It should be further noted that the left front support block is connected with a left front multi-stage stud, and the left front multi-stage stud is connected with a left front driving motor;

the right front support block is connected with a right front multistage stud which is connected with a right front driving motor;

the PLC is connected with the left front drive motor to control the operation of the left front drive motor and drive the left front support block to lift;

the PLC is connected with the right front driving motor to control the operation of the right front driving motor and drive the right front supporting block to lift.

It should be further noted that the right rear support block is connected with a right rear multi-stage stud which is connected with a right rear driving motor;

the left rear supporting block is connected with a left rear multi-stage stud which is connected with a left rear driving motor;

the PLC is connected with the right rear driving motor to control the operation of the right rear driving motor and drive the right rear supporting block to lift;

the PLC controller is connected with the left rear driving motor, controls the left rear driving motor to operate, and drives the left rear supporting block to lift.

It should be further noted that the PLC controller is connected to a production MES terminal, and the production MES terminal obtains control data of the PLC controller and displays the whole process of the fixed installation of the external plug-in card of the server; and the PLC is also used for receiving a control instruction and a control program input by a user and sending the control instruction and the control program to the PLC for execution.

It is further noted that the PLC controller is connected to the front driving motor and the rear driving motor via control cables;

the PLC controller is in communication connection with the production MES end in a data cable or wireless communication mode.

The manufacturing MES end is further configured to receive an external plug-in card installation control program of the server, and parse an external plug-in card installation control program instruction of the server into an external plug-in card installation control instruction sequence; the external plug-in card installation control instruction sequence comprises the following steps: a plurality of external plug-in card installation control instructions arranged according to a preset sequence;

sending the external plug-in card installation control instruction sequence to a PLC (programmable logic controller);

the PLC analyzes a plurality of external plug-in card installation control instructions arranged according to a preset sequence in the external plug-in card installation control instruction sequence, executes the external plug-in card installation control instructions and carries out external plug-in card support installation of the server.

It should be further noted that the PLC controller is further configured to record the execution process information in a manner of an add-in card installation log, and feed back the execution process information to the MES production end;

and the production MES end uploads the external plug-in card installation log to the cloud storage end, and the external plug-in card installation control instruction sequence in the production MES end is emptied, so that the production MES end enters the next external plug-in card installation cycle.

It should be further noted that the production MES side configures MES side communication interface parameters and configures communication interface parameters of the target PLC controller, so that the MES side communication interface parameters of the production MES side and the communication interface parameters of the target PLC controller are matched with each other, and the external card installation control instruction sequence is sent to the target PLC controller.

According to the technical scheme, the invention has the following advantages:

the invention combines the process informatization to realize the support of the Riser card bracket and the intelligent support of the fixed operation process, including but not limited to screw locking and external plug-in mounting, and the invention can support the operation related to the fixed support of the Riser card bracket. The jig solves the problems of unclear operation sequence and various jigs caused by matching different supports with different jigs, achieves the effect that one set of jig can guide production line workers to operate according to the process flow and can cover all Riser card supports, and has guiding significance for process optimization and jig unification in a larger range; meanwhile, the development work and the development period of the tooling jig are simplified, and the drawing making period is compressed into simple operation of changing coordinates in a program. The number and types of the tool fixtures are reduced, and the tool fixtures are convenient to manage.

According to the invention, the MES terminal is configured with the communication interface parameters of the MES terminal and the communication interface parameters of the target PLC controller, so that the communication interface parameters of the MES terminal and the communication interface parameters of the target PLC controller are matched with each other to form a closed-loop control system, and the communication stability and consistency between the MES terminal and the target PLC controller can be improved; and a good foundation is laid for an automatic system for realizing real-time interactive transmission of data between the MES end and the target PLC.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings required to be used in the description will be briefly introduced below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic view of an overall system for fixing and mounting a card holder outside a server;

FIG. 2 is a schematic diagram of an embodiment of a system for fixedly mounting a card holder outside a server;

fig. 3 is a schematic diagram of another embodiment of a server external card-receiving rack fixing and mounting system.

Detailed Description

As shown in fig. 1, the illustration provided in the external card-holder fixing and mounting system for a server according to the present invention is only a schematic illustration of the basic idea of the present invention, and only the components related to the present invention are shown in the drawings rather than being drawn according to the number, shape and size of the components in actual implementation, and the type, number and ratio of the components in actual implementation may be changed at will, and the layout of the components may be more complicated.

The scheme for realizing unification of the supporting bases of the multiple Riser card supports embodied by the server external plug-in card support fixing and mounting system provided by the invention is to standardize and standardize auxiliary mounting jigs for materials such as the Riser card 17 and the support 18, and by referring to the standard, one scheme can be compatible with more materials. Card support fixed mounting system combines servo motor's smart accuse performance in the outer interpolation of server for more accurate laminating Riser card and support 18's material object more when the tool is moulded.

The embodiment of the invention can acquire and process the associated data based on the PLC control technology. The PLC control technology utilizes a digital computer or equipment controlled by the digital computer, senses the running state of the equipment based on an intelligent control program, acquires a control instruction and executes automatic running.

Fig. 1 shows a flow chart of a preferred embodiment of the server external card-holder fixed mounting system of the present invention. The system for fixedly installing the card-external-plug-in support of the server may be configured with one or more PLC controllers, which are devices capable of automatically performing numerical calculation and/or information processing according to preset or stored instructions, and the hardware of the PLC controllers includes, but is not limited to, a microprocessor, an Application Specific Integrated Circuit (ASIC), a Programmable Gate Array (FPGA), a Digital Signal Processor (DSP), an embedded device, and the like.

The invention also comprises a production MES end which may comprise a network device and/or a user device. The network device includes, but is not limited to, a single network server, a server group consisting of a plurality of network servers, or a Cloud Computing (Cloud Computing) based Cloud consisting of a large number of hosts or network servers.

The Network where the production MES side and the PLC controller are located includes, but is not limited to, the internet, a wide area Network, a metropolitan area Network, a local area Network, a Virtual Private Network (VPN), and the like.

The fixing and mounting system for the external plug-in card bracket of the server, which is disclosed by the invention, is described in detail with reference to fig. 1 to 3, and realizes the control of the auxiliary tool by a PLC so as to realize the fixing of the same tool to support different brackets, the locking of screws and the auxiliary mounting of the external plug-in card. Different programs are edited according to different 3D models to support different tool states, and convenient switching in the using process of the program naming is achieved in use, so that the requirement that one tool supports all external card lock screws and installation is met.

Specifically, the server external plug-in card support fixed mounting system includes: a support base 1 and a PLC controller 13;

a left limiting block 5 is arranged at the first side part of the supporting base 1, and a right limiting block 10 is arranged at the second side part of the supporting base 1; a front limiting block 2 and a rear limiting block 7 are arranged between the left limiting block 5 and the right limiting block 10; a middle supporting block 9 is arranged at the middle position close to the front limiting block 2 and the rear limiting block 7; a left front supporting block 3 and a right front supporting block 8 are arranged between the front limiting block 2 and the middle supporting block 9; a right rear supporting block 6 and a left rear supporting block 11 are arranged between the rear limiting block 7 and the middle supporting block 9; the left limiting block 5 is connected with a left limiting multistage stud which is connected with a left driving motor 4; the right limiting block 10 is connected with a right limiting multistage stud which is connected with a right driving motor 14; the PLC 13 is respectively connected with the left driving motor 4 and the right driving motor 14, receives the external plug-in card control instruction, and respectively controls the left driving motor 4 and the right driving motor 14 to operate so as to realize the fixed installation of the external plug-in card support of the server. The front limiting block 2 is connected with a front driving motor; the rear limiting block 7 is connected with a rear driving motor; the PLC 13 is connected with the front driving motor, controls the front driving motor to operate and drives the front limiting block 2 to lift; the PLC 13 is connected with the rear driving motor, controls the rear driving motor to operate, and drives the rear limiting block 7 to lift.

The front limiting block 2 is connected with a front limiting multistage stud which is connected with a front driving motor; the rear limiting block 7 is connected with a rear limiting multistage stud which is connected with a rear driving motor; the PLC 13 is connected with the front driving motor to control the operation of the front driving motor and drive the front limiting block 2 to lift; the PLC 13 is connected with the rear driving motor, controls the rear driving motor to operate, and drives the rear limiting block 7 to lift.

The left front supporting block 3 is connected with a left front multi-stage stud 19 which is connected with a left front driving motor 20; the right front support block 8 is connected with a right front multistage stud which is connected with a right front driving motor; the PLC 13 is connected with the left front driving motor to control the left front driving motor to operate and drive the left front supporting block 3 to ascend and descend; the PLC 13 is connected with the right front driving motor to control the operation of the right front driving motor and drive the right front supporting block 8 to lift.

The right rear supporting block 6 is connected with a right rear multi-stage stud which is connected with a right rear driving motor; the left rear supporting block 11 is connected with a left rear multi-stage stud which is connected with a left rear driving motor; the PLC 13 is connected with the right rear driving motor to control the operation of the right rear driving motor and drive the right rear supporting block 6 to lift; the PLC 13 is connected with the left rear driving motor to control the left rear driving motor to operate and drive the left rear supporting block 11 to lift.

That is to say, the PLC controller 13 can control all motors in the system, and then can realize the lifting control of each supporting block on the supporting base 1. Based on the shape and the installation requirement of the Riser card and the bracket, the corresponding motor is controlled to operate, the Riser card and the bracket are positioned, and then positioning processing and other operations are carried out.

Further, carry out accurate control to each supporting shoe on the supporting base 1 through the motor, realize the adaptation and the spacing of all kinds of Riser card supports, satisfy operation requirements such as installation plug-in card.

As an embodiment of the invention, the PLC controller 13 is connected with a production MES terminal 16, and the production MES terminal 16 acquires control data of the PLC controller 13 and displays the whole process of the fixed installation of the external plug-in card of the server; and is also used for receiving control instructions and control programs input by a user and sending the control instructions and control programs to the PLC controller 13 for execution.

Thus, the PLC 13 can be linked with a production MES terminal 16, a corresponding relevant program is automatically identified according to the current production server model, an operation sequence is identified according to a process informatization requirement, an operation corresponding program is automatically executed, the current operation finishes pressing a switching button, each limiting block returns to zero, each supporting block returns to zero after a Riser card support is taken down and is automatically switched to a model which needs to be supported by the next operation, a production line worker puts into the Riser card support and then clamps the limiting block, and then the operator works. And synchronously displaying the placement method of the current jig model and the operation steps required to be carried out by the MES terminal process informationization.

In the embodiment provided by the invention, a plurality of PLC controllers 13 are involved in the system, and one PLC controller 13 can be controlled corresponding to one supporting base. In order to ensure stable and accurate communication between the production MES terminal 16 and the PLC controllers 13, the control instructions are prevented from being sent in error or sent in error. And configuring MES end communication interface parameters by the production MES end 16 and communication interface parameters of the target PLC controller 13, matching the MES end communication interface parameters of the production MES end 16 with the communication interface parameters of the target PLC controller 13, and sending the external plug-in card installation control instruction sequence to the target PLC controller 13.

According to the invention, the MES end 16 is configured with the MES end communication interface parameters and the communication interface parameters of the target PLC 13, so that the MES end communication interface parameters of the MES end 16 and the communication interface parameters of the target PLC 13 are matched with each other to form a closed-loop control system, and the communication stability and consistency between the MES end 16 and the target PLC 13 can be improved; and a good foundation is laid for an automatic system for realizing real-time interactive transmission of data between the MES terminal 16 and the target PLC controller 13.

As an embodiment of the present invention, the manufacturing MES 16 is further configured to receive an external server plug-in card installation control program, and parse the external server plug-in card installation control program instruction into an external plug-in card installation control instruction sequence; the external plug-in card installation control instruction sequence comprises the following steps: a plurality of external plug-in card installation control instructions arranged according to a preset sequence; sending the external card installation control instruction sequence to the PLC 13;

the PLC 13 analyzes a plurality of external plug-in card installation control instructions arranged according to a preset sequence in the external plug-in card installation control instruction sequence, executes the external plug-in card installation control instructions, and carries out external plug-in card support installation of the server.

The PLC 13 is also used for recording the execution process information in a mode of an outer plug-in card installation log and feeding back the execution process information to the MES end 16; the production MES terminal 16 uploads the external card installation log to the cloud storage terminal, and the external card installation control instruction sequence in the production MES terminal 16 is emptied, so that the production MES terminal 16 enters the next external card installation cycle.

The invention realizes the communication configuration between the MES end 16 and the target PLC controller 13 and realizes the data transmission and result feedback of the whole process of the installation of the external plug-in card. The MES terminal 16 and the target PLC 13 form a complete closed-loop system for production data and operation feedback, so that the stability and the efficiency of the installation of the external plug-in card are improved. The real-time interactive transmission of the data fixedly installed on the external plug-in card support of the server is realized, and the automatic operation of the system is also realized.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention realizes automatic control based on the MES terminal 16 and the PLC 13 and regulates and controls the motor, thereby realizing the modeling of a jig for supporting a Riser card bracket and assisting in finishing actions such as screw locking, external card installation and the like.

The bolt locking driving motor is connected with the multi-stage studs in a matched mode, the PLC 13 sends control signals to the bolt locking driving motor, and the bolt locking driving motor rotates forwards or reversely to drive the 2-stage studs and the 3-stage studs of the multi-stage studs step by step through stud rotation to achieve ascending and descending of the supporting block. The lifting height of the supporting block is larger than the height and the width of the traditional Riser card bracket.

According to the invention, the supporting base 1 is divided into a plurality of parts of supporting blocks, and a 3D model can be configured to program the height of the supporting blocks according to the requirement of a Riser card. The number of the divided modules is determined after the current 3D model is sorted, and part of the modules are non-flat modules and are manufactured according to actual conditions. And coding the servo motor, setting forward rotation or reverse rotation according to the code during programming, and setting information such as power-on time to complete the height control of the supporting block. And after the programming is finished, distinguishable naming is used, and when the programming is used, a corresponding program is selected to run to realize the adaptation with the external card inserting bracket.

In order to facilitate the use of production line staff, naming is needed to be intuitive after programming a program, naming is completed according to the type, type and function of an external plug-in card, naming rules are unified, the MES terminal 16 can be used for screening and producing corresponding fields conveniently, time type information is synchronously transmitted to the PLC 13 when the order information is obtained through the corresponding fields, the PLC 13 screens out the programs of the corresponding fields, models required by operation are synchronously produced according to process requirements, the MES terminal 16 is produced to display the current operation steps, the using method of the tool is demonstrated, the Riser card support is taken down after the operation is completed, the Riser card support is reset to zero according to a switching button limiting block, the Riser support is released, the supporting block is reset to zero after the Riser card support is taken down, the model required by the next operation is automatically executed, and the next operation is continuously performed.

As another embodiment of the invention, based on the 3D model data of the Riser card support obtained by the manufacturing MES terminal 16, a PLC program is programmed and named in combination with information such as the model and the support position. When the PLC is used, a corresponding program is found at the PLC control end and then the PLC is operated. According to the PLC control end instruction, the corresponding servo motor is electrified to work, so that the corresponding supporting block reaches a set height to complete perfect supporting of the Riser card support, and the limiting block is automatically tightened to limit the support after the support is placed in the support; because the supporting blocks are separately controlled, the different positions are separately controlled or the different heights are controlled according to the 3D model of the support, and the function of supporting various Riser card supports is realized; when a program is switched by pressing a switching button after the screw driving operation is executed, the limiting block returns to zero to release the Riser card support, the supporting block returns to zero after the Riser card support is taken down, then the supporting block is molded according to 3D model data, and the limiting block finishes limiting action to clamp the Riser card support after the Riser card support is placed.

The invention combines the process informatization to realize the support of the Riser card bracket and the intelligent support of the fixed operation process, including but not limited to screw locking and external plug-in card installation, and the invention can support the operation related to the fixed support of the Riser card bracket. The invention solves the problems of unclear operation sequence and various jigs caused by matching different supports with different jigs, achieves the effect that one set of jig can guide production line workers to operate according to the process flow and can cover all Riser card supports, and the optimization scheme of the invention has guiding significance for process optimization and wider range of jig unification; meanwhile, the development work and the development period of the tooling jig are simplified, and the drawing making period is compressed into simple operation of changing coordinates in a program. The number and types of the tool fixtures are reduced, and the tool fixtures are convenient to manage.

The elements and algorithm steps of the various examples described in connection with the embodiments disclosed in the server external card-holder fixed mounting system of the present invention may be embodied in electronic hardware, computer software, or combinations of both, and the components and steps of the various examples have been described in functional generality in the foregoing description for the purpose of illustrating clearly the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The block diagrams shown in the figures of the server external card-holder fixed mounting system are only functional entities and do not necessarily correspond to physically separate entities. I.e. these functional entities may be implemented in the form of software, or in one or more hardware modules or integrated circuits, or in different networks and/or processor means and/or microcontroller means.

In the server external card-receiving rack fixed mounting system of the present invention, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may also be an electrical, mechanical or other form of connection.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a card support fixed mounting system in server which characterized in that includes: a support base (1) and a PLC (13);

a left limiting block (5) is arranged at the first side part of the supporting base (1), and a right limiting block (10) is arranged at the second side part of the supporting base (1);

a front limiting block (2) and a rear limiting block (7) are arranged between the left limiting block (5) and the right limiting block (10);

a middle supporting block (9) is arranged at the middle position close to the front limiting block (2) and the rear limiting block (7);

a left front supporting block (3) and a right front supporting block (8) are arranged between the front limiting block (2) and the middle supporting block (9);

a right rear supporting block (6) and a left rear supporting block (11) are arranged between the rear limiting block (7) and the middle supporting block (9);

the left limiting block (5) is connected with a left limiting multistage stud which is connected with a left driving motor (4);

the right limiting block (10) is connected with a right limiting multistage stud which is connected with a right driving motor (14);

the PLC (13) is respectively connected with the left driving motor (4) and the right driving motor (14) to receive the external plug-in card control instruction and respectively control the left driving motor (4) and the right driving motor (14) to operate so as to realize the fixed installation of the external plug-in card support of the server.

2. The system of claim 1, wherein the card support comprises a plurality of card support members,

the front limiting block (2) is connected with a front limiting multistage stud which is connected with a front driving motor;

the rear limiting block (7) is connected with a rear limiting multistage stud which is connected with a rear driving motor;

the PLC (13) is connected with the front driving motor, controls the front driving motor to operate and drives the front limiting block (2) to lift;

the PLC (13) is connected with the rear driving motor, controls the rear driving motor to operate, and drives the rear limiting block (7) to lift.

3. The system for fixedly mounting an external card-receiving rack of a server according to claim 1,

the left front support block (3) is connected with a left front multi-stage stud which is connected with a left front driving motor;

the right front supporting block (8) is connected with a right front multistage stud which is connected with a right front driving motor;

the PLC (13) is connected with the left front drive motor, controls the left front drive motor to operate and drives the left front support block (3) to lift;

the PLC (13) is connected with the right front driving motor to control the operation of the right front driving motor and drive the right front supporting block (8) to lift.

4. The system for fixedly mounting an external card-receiving rack of a server according to claim 1,

the right rear supporting block (6) is connected with a right rear multi-stage stud which is connected with a right rear driving motor;

the left rear supporting block (11) is connected with a left rear multi-stage stud which is connected with a left rear driving motor;

the PLC (13) is connected with the right rear driving motor to control the operation of the right rear driving motor and drive the right rear supporting block (6) to lift;

the PLC (13) is connected with the left rear driving motor to control the left rear driving motor to operate and drive the left rear supporting block (11) to lift.

5. The system of claim 1, wherein the card support comprises a plurality of card support members,

the PLC controller (13) is connected with a production MES end (16), and the production MES end (16) acquires control data of the PLC controller (13) and displays the whole process of the fixed installation of the external plug-in card of the server; and the PLC is also used for receiving a control command and a control program input by a user and sending the control command and the control program to the PLC (13) for execution.

6. The system of claim 5, wherein the card holder is fixedly mounted on the server,

the PLC (13) is connected with the front driving motor and the rear driving motor through control cables;

the PLC (13) is in communication connection with the production MES end in a data cable or wireless communication mode.

7. The system of claim 5, wherein the card support comprises a plurality of support members,

the production MES (16) is also used for receiving the server external plug-in card installation control program and analyzing the instruction of the server external plug-in card installation control program into an external plug-in card installation control instruction sequence; the external card installation control instruction sequence comprises the following steps: a plurality of external plug-in card installation control instructions arranged according to a preset sequence;

sending the external plug-in card installation control instruction sequence to a PLC (13);

the PLC (13) analyzes a plurality of external plug-in card installation control instructions arranged according to a preset sequence in the external plug-in card installation control instruction sequence, executes the external plug-in card installation control instructions and carries out external plug-in card support installation of the server.

8. The system of claim 7, wherein the card support comprises a plurality of support members,

the PLC (13) is also used for recording the execution process information in a mode of an add-in card installation log and feeding back the execution process information to a production MES (16);

and the production MES terminal (16) uploads the external plug-in card installation log to a cloud storage terminal, and the external plug-in card installation control instruction sequence in the production MES terminal (16) is cleared, so that the production MES terminal (16) enters the next external plug-in card installation cycle.

9. The system of claim 8, wherein the card holder is fixedly mounted on the server,

and configuring communication interface parameters of the MES end and communication interface parameters of the target PLC (13) by the MES production end (16), so that the communication interface parameters of the MES end of the MES production end (16) are matched with the communication interface parameters of the target PLC (13), and sending the externally-inserted card installation control instruction sequence to the target PLC (13).

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