KR200468678Y1 - High integration computer system with motherboard and storage device sharing structure - Google Patents

Abstract

The present invention relates to a highly integrated computer system having a structure in which a CPU card and a storage facility are shared. More specifically, the highly integrated computer system includes a device body, at least one expansion card module, a plurality of CPU cards, and at least one data storage facility. It includes a main back panel of the main body is installed, the main back panel is provided with a main control electric circuit and a plurality of main back panel insertion connection groove, the expansion card module is installed inside the main body The expansion card module includes a sub back panel, and the sub back panel is provided with a sub control electric circuit and a plurality of second sub back panel inserting grooves, and at one end of the sub back panel. Sub back panel insert connection groove is installed, the first sub back panel insert connection groove is the main back The first sub-back panel inserting groove and the sub-control electric circuit and the plurality of second sub-back panel inserting grooves are electrically connected to each other. A card is installed on the expansion card module, the CPU card is inserted into the second sub back panel insertion connection groove, respectively, a microprocessor is installed on the CPU card, and the data storage facility is installed on the expansion card module. And the data storage facility also relates to a highly integrated computer system configured to be inserted into and connected to the second sub back panel insert connection groove, which is advantageous in terms of production benefits because it can be equipped with a powerful modular assembly function. And it will be able to obtain the effect that can greatly improve the product competitiveness.

Description

HIGH INTEGRATION COMPUTER SYSTEM WITH MOTHERBOARD AND STORAGE DEVICE SHARING STRUCTURE}

The present invention relates to a computer system, and particularly to a highly integrated computer system that can be easily upgraded by conveniently combining various necessary modules with excellent scalability and economic benefits.

Existing industrial computers are generally referred to as blade servers, and the structure of the blade server usually includes a device body, and a main back panel and a plurality of treatment spaces are installed in the device body. The plurality of treatment spaces and insertion connection grooves corresponding to each other are installed on the panel, and the blade server also includes a plurality of CPU cards, and the plurality of CPU cards includes a plurality of treatment spaces of the device body. And the CPU card is inserted into and secured to the insertion connection groove of the main back panel to complete the electrical connection. Conventional blade server structure can achieve the purpose that can be applied to industrial computer system, but there are many areas to improve. For example, one microprocessor (CPU) is installed on the CPU card, and the quantity of the storage space of the device body is fixed, so that the upper limit of the microprocessor is limited and fixed. As a result, when the number of microprocessors is small, it is often impossible to process a large amount of computational work in real time.In order to enhance the computational power of the blade server, it is necessary to exchange the entire CPU card to upgrade. It could not respond quickly to the client's commercial needs. This situation is not an ideal structure because it not only raises operating costs from the client side but also lowers economic benefits. In addition, when the client needs to add other functions such as storage, wireless, encryption and decryption, stereoscopic images and other modules related to computer and network applications, the module structure is limited and the entire CPU card is exchanged as described above. Changes in module functionality and easy upgrade extensions are also disadvantages that must be addressed and improved.

How to improve existing blade servers is an important challenge that must be addressed and overcome in the industry.

The present inventor began to research and develop a solution to solve this problem based on the above-mentioned disadvantages of the existing blade server and the disadvantages of the structural design, and can perform a large amount of computational tasks in real time. In addition, the modular and extensible design has led to the design of high-end computer systems that can contribute to the social and industrial development.

The main purpose of the present invention is to provide a highly integrated computer system with a structure that shares a CPU card and a storage facility so that the computer system can be equipped with a more powerful modular assembly function, and also has a wider range of application options, thereby providing excellent exchangeability and replaceability. To enable greater functionality in manufacturing, assembly and expansion applications, and to further enhance production benefits and product competitiveness.

       Another object of the present invention is to provide a highly integrated computer system having a structure in which a CPU card and a storage facility are shared, thereby improving the structural efficiency of the treatment space of the device body, and greatly increasing the total number of microprocessors in real time. The ability to perform computational tasks yields economic benefits, such as easier computation and faster upgrades.

Another object of the present invention is to provide a highly integrated computer system having a structure in which a CPU card and a storage facility are shared, and provide various other modules such as wireless modules, storage modules, and other modules related to computer and network applications according to client needs. It is possible to select, replace and arrange a suitable CPU card under one common frame.

The technical means used in the present invention to achieve the above object includes a device body, a plurality of expansion card modules, a plurality of CPU card, a plurality of treatment space is installed, wherein the main body of the main body panel A main control electric circuit and a plurality of main back panel insertion connecting grooves are installed on the main back panel, the at least one expansion card module is inserted into the treatment space, and the expansion card module includes a sub back panel. The sub back panel includes a sub control electric circuit and a plurality of second sub back panel insertion connecting grooves, and a first sub back panel insertion connecting groove is installed at one end of the sub back panel. The sub back panel insert connection grooves are inserted into and connected to the main back panel insert connection grooves. The first sub back panel insert connection groove is electrically connected to the sub control electric circuit and the plurality of second sub back panel insert connection grooves, and the plurality of CPU cards are installed on all of the expansion cards. The cards are respectively inserted into the second sub back panel insertion grooves, and a microprocessor is installed on the CPU card.

In summary, the present invention provides a highly integrated computer system with a strong modular assembly function and excellent exchangeability and exchangeability, which can not only achieve the effect of improving the production efficiency and product competitiveness, but also the treatment space. Increasing the structure's efficiency makes it possible to perform more computations in real time using a large number of microprocessors, resulting in economic benefits such as computational enhancements and rapid upgrades.

1 is a three-dimensional view of the present invention.
2 is an exploded view of the present invention.
3 is an explanatory diagram showing an expansion card module of the present invention.
Figure 3a-3c is an exemplary view showing a change of the data storage facility of the present invention.
4 is a system structural diagram of the present invention.
5 is an explanatory diagram of management control of the main control electric circuit of the present invention.

In order to explain the present invention more clearly, the present invention will be described with reference to the accompanying drawings.

Referring to the contents of FIG. 1 to FIG. 3, in the first embodiment of the present invention, a highly integrated computer system having a structure in which a CPU card and a storage facility are shared, the apparatus body 10, at least one expansion card module 20, and a plurality of CPU card 30, wherein the device body 10 includes a case 11, the case 11 includes a bottom panel 14, the bottom panel 14 There is provided a treatment space 12 of a plurality of slide devices (or configurable to other devices), the main back panel 13 is installed behind the device body 10, and on the main back panel 13 A main control electric circuit is installed, and a plurality of main back panel insertion grooves 131 are installed in the treatment space 12 corresponding to the main back panel 13 and the main control electric circuit and the main bag. Panel insertion groove 131 is the main back panel 13 Through the main input bus (BUS) are provided in the transmission data signal.

The expansion card module 20 is inserted into and installed in the treatment space 12 of the case 11, and the expansion card module 20 includes a sub back panel 21 and the sub back panel 21. The sub-control electric circuit and the plurality of second sub-back panel inserting grooves 24 are installed on the sub-back panel 21, and the sub-back panel 21 is further fixed in position through the lower panel 22 and the front panel 23. When the first sub back panel insertion groove 25 is installed at the rear end of the sub back panel 21, and the expansion card module 20 is inserted into the treatment space 12, the first sub back panel is provided. The sub back panel 21 and the main back panel 13 are electrically connected to each other by being fixed to the positions corresponding to each other on the main back panel insert connection groove 131 installed to face each other. The sub control electric circuit and the second sub back panel insertion connection groove 24 are Data signals are transmitted and received through the first sub back panel insertion connection groove 25 and the main back panel 13. A plurality of display windows 231 and a power insertion groove 232 connected to the sub control electric circuit are installed on the front panel 23. In this case, the sub back panel 21 may be implemented in other ways. The sub-back panel 21 and the lower panel 22 may be interchanged with each other.

The CPU card 30 is installed on the expansion card module 20, a microprocessor 31 (CPU) is installed on the CPU card 30, and one end of the CPU card 30 has a conductive connection portion ( For example, copper pins) are installed, and the CPU card 30 and the sub back panel 21 are inserted into and installed in the second sub back panel insertion connection groove 24 of the sub back panel 21. ) To complete the electrical connection. The CPU card 30 is divided into an independent arithmetic system or an integrated system in which a plurality of CPU cards 30 are distributed to perform arithmetic processing work and then integrate them.

Referring to FIG. 3 again, at least one data storage device 40, such as a hard disk (HDD), is connected and installed on the expansion card module 20 in an electrical connection manner, and the data storage device ( One end of the coupling 40 is connected to the connection component, and the connection component includes a first connector and a second connector at each end, and the first connector is connected to the data storage facility 40. The second connector is inserted into and connected to the second sub back panel insertion connection groove 24 of the sub back panel 21 to connect the data storage facility 40 and the sub back panel 21 (the expansion card module 20). When the electrical connection is completed, the data storage facility 40 uses the position space of the two second sub back panel inserting grooves 24 on the sub back panel 21. At this time, the high-density computer system of the structure sharing the CPU card and the storage device of the present invention can be connected to other data storage equipment (HDD) through the main input / output merger or the power insertion connection groove (232).

Referring to the contents of FIG. 3A, a plurality (8) of CPU cards 30 and one data storage device 40 (two second) on the sub back panel 21 of the expansion card module 20 are shown. 3B), a plurality of (8) CPUs are placed on the sub back panel 21 of the expansion card module 20. Referring to FIG. A card 30 and two data storage facilities 40 (using four second sub back panel insertion connection grooves 24 positions) are inserted and installed. Referring to FIG. 3C, the expansion card module 20 is installed. A plurality of (four) CPU cards 30 and three data storage facilities 40 (using six second sub back panel insertion connection grooves 24 positions) are inserted and installed on the sub back panel 21. . Through this structure, the capacity (quantity) state of the data storage facility 40 can be adjusted as needed, so that the storage facility can be expanded more quickly and conveniently.

As described above, a computer system having a shared structure of a CPU card and a storage device according to the present invention includes a plurality of second sub back panel inserting grooves 24 using the sub back panel 21 on each expansion card module 20. ), And further expand and install a plurality of CPU cards 30, through this structure can significantly increase the number of microprocessor 31 (CPU) installation unit of the computer system, furthermore in real time The ability to easily perform large amounts of computational functions can provide benefits such as simpler calculations and faster upgrades in terms of economic benefits.

Referring to the contents of FIG. 4 showing the system structure of the present invention, a plurality of expansion card modules 20 (including 20-1, 20-2,... 20-N) are installed and connected to the device body 10. A system is formed, and each expansion card module 20 (including 20-1, 20-2,... 20-N) further includes a plurality of CPU cards 30 (30-1, 30-2,... (N-2) or 30- (N-4) ..) and at least one data storage facility 40 are included to form a highly integrated computer system that shares the CPU card and the storage facility of the present invention. Through this, it is possible to achieve the purpose of highly integrated modularization, which can greatly increase the number of microprocessor 31 (CPU) installation units of the computer system.

Referring to the contents of FIG. 5, the main control electric circuit 13A of the main back panel 13 of the high-integration computer system of the present invention includes a supervisory control module 60, and the supervisory control module uses the CPU. The computer 30 reads messages from the microprocessor 31, optionally with an electrical connection. The monitoring control module 60 further includes a switching module 61 and an input / output interface module 62, wherein the switching module 61 is electrically connected to any CPU card 30 by the data storage facility 40. It selectively switches whether to connect or not, allowing the storage device to complete data read and write operations. In other words, the switching module 61 selects one or a plurality of CPU cards 30 so that they can be used as a read and write server. The input / output interface module 62 includes at least one connection port 63 into which an external device can be inserted. Control management data may be transmitted to the connection port through the connection port, or the monitoring control data may be received from the connection port. The input / output interface module 62 may further include a keyboard connection port 64, a video call connection port 65, and a mouse connection port 66, which may be used as a switcher such as a keyboard video mouse (KVM). Surveillance control function can be performed.

The highly integrated computer system of the present invention can achieve the following effects through the above-described structure.

1.If you want to add additional functions (storage, wireless, encryption and decryption, stereoscopic image, other computer and network application related modules, etc.) on the client, replace only the CPU card 30 you want to upgrade without having to replace all the CPUs. Just do it.

2. According to the needs of clients, different grades of CPU card 30 can be selected and used.

3. The flexibility of the product increases because different application modules can be selected and used according to client's needs.

4. One structure can be used jointly.

The above description has been given by way of example only comparatively excellent embodiments to explain in detail the features and advantages of the present invention as the scope of the utility model registration claim is not limited to this within the spirit and scope of the utility model registration application In the case of changes and other modifications in the process also included in the utility model registration claims.

10 Cases 11 Cases
12 Treatment space 13 Main back panel
13 A Main control circuit 131 Main back panel insert
14 Bottom Panel 20 Expansion Card Module
20-1, 20-2, ..., 20-N Expansion Card Module 21 Sub Back Panel
22 Lower panel 23 Front panel
231 Display Window 232 Power Entry Slot
24 2nd Sub Back Panel Insertion Groove
25 First Sub Back Panel Insertion Groove
30, 30-1, 30-2, 30- (N-2), 30- (N-4), ... CPU Card
31 Microprocessors 40 Data Storage
60 Supervisory control module 61 Switching module 62 Input / output interface module 63 Connection port 64 Keyboard connection port 65 Image connection port 66 Mouse connection port

Claims (9)

The present invention relates to a highly integrated computer system having a structure in which a CPU card and a storage facility are shared, wherein the highly integrated computer system includes a device body, at least one expansion card module, a plurality of CPU cards, and at least one data storage facility. The main body of the main back panel is installed, the main back panel is provided with a main control electric circuit and a plurality of main back panel insertion connection groove, the expansion card module is inserted into the device body is installed, the expansion The card module includes a sub back panel, and the sub back panel is provided with a sub control electric circuit and a plurality of second sub back panel insertion grooves, and at one end of the sub back panel, a first sub back panel insertion connection groove. Is installed, and the first sub back panel insertion connection grooves face each other in the main back panel insertion connection groove. And the first sub back panel insertion connection groove, the sub control electric circuit and the plurality of second sub back panel insertion connection grooves are electrically connected to each other, and the plurality of CPU cards are disposed on the expansion card module. The CPU card is inserted into and connected to the second sub back panel insertion connection groove, a microprocessor is installed on the CPU card, and the data storage facility is deposited on the expansion card module, and the data storage is performed. And the facility is configured to be inserted into and connected to the second sub back panel insert connection groove. The method of claim 1,
The CPU card or microprocessor is a high-density computer system of a structure for sharing the CPU card and the storage facility, characterized in that the independent computing system. The method of claim 1,
Wherein the CPU card or microprocessor is a high-density computer system of the structure to share the CPU card and the storage facility, characterized in that a plurality of CPU card or a plurality of microprocessor is a system for distributing a single integrated work to proceed with the processing operation. The method of claim 1,
The sub back panel is further fixed at its position through the lower panel and the front panel, and on the front panel is installed a display window for making electrical connection with at least one of the sub control electric circuits. Highly integrated computer system of common structure. The method of claim 1,
At one end of the CPU card is a high-density computer system of the structure to share the CPU card and the storage facility, characterized in that the conductive connection or copper pins are provided to electrically connect with the second sub back panel insert connection groove. The method of claim 1,
One end of the data storage facility is connected to the connection component, and the connection part includes a first connector and a second connector at both ends, and the first connector is connected to the data storage facility. The connector is inserted into and connected to the second sub back panel insertion connection groove of the sub back panel to complete the electrical connection between the data storage facility and the sub back panel. Highly integrated computer system. The method of claim 1,
The high-density computer system is further provided with a supervisory control module, through which a high-density computer system having a structure in which a CPU card and a storage facility are read, by selectively making an electrical connection with the CPU card. . The method of claim 7, wherein
The monitoring control module further includes an input / output interface module, the input / output interface module includes at least one connection port, and an external device may be inserted into and connected to the connection port, and control management data may be connected to the connection port. Highly integrated computer system structured to share the CPU card and the storage facility, characterized in that the transmission or reception of the monitoring control data at the connection port. 9. The method of claim 8,
The input / output interface module may also include a keyboard connection port, a video call connection port, a mouse connection port, and the like.

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