CN2629104Y - Multisystem shared computer master machine - Google Patents

Abstract

The utility model provides a multisystem shared computer host machine. The utility model is mainly composed of more than one subminiature host computers, switching bridges and a power supplier which are installed in a machine box, wherein the subminiature host computers share the power supplier, the switching bridges of which the quantity corresponds to that of the subminiature host computers are installed on the back of the machine box, and each of the switching bridge is provided with a plurality of export ports or import ports and is connected to the corresponding export port or import port of each of the subminiature host computers through switching lines of which the quantity corresponds to that of the switching bridges; thus, external hardwares or peripheral equipment outside the machine box can be connected to the corresponding subminiature host computers. Through the design, the required space of a plurality of computer host machines can be greatly reduced, and the computer host machines share the same power supply; thus, the utility model has the advantages of easy management and cost and electric power waste reduction.

Description

Multisystem is shared main frame

Technical field

The utility model provides a kind of structure design of main frame, refers in particular to a kind ofly to install an above micromainframe at least at cabinet inside, shares the multisystem of cabinet and shares main frame and can form dual system or multisystem.

Background technology

In the modern times of Science and Technology Day crescent benefit, no matter enterprise or individual adopt computerize to become the some of daily life already, and instrument or entertainment device that the many especially people of computing machine almost will use every day, therefore most people can buy computing machine, everyone indispensable computing machine especially in the most enterprise needs to use the computing machine more than an one even.

Handled in order to use different systems to do computerize in the past, system all can be placed in the computing machine, activated the different system that uses respectively in the mode of switching again, therefore very inconvenience in the use, and can't use different systems simultaneously.Thereby most situation is to adopt computing machine more than two ones to do the use and the processing of different system, for example can do the input of data with a computing machine, and another computing machine is done emulation, and another computing machine done test or the like.

Yet, though,, and need bigger spatial accommodation for main frame and the screen of placing these computing machines with convenient use and the processing of making different system of the computing machine more than two ones; Simultaneously, using the multi-section computing machine also to need to expend more electric power, and the repetition and waste (as power supply unit) of some common hardware cost, thereby cause electric power, space, and equipment cost waste simultaneously, is an important topic that needs to be resolved hurrily in fact.

Summary of the invention

In view of this, after the inventor several times analyzes and researches, developed a kind of computing machine micromainframe of small size already, satisfied the framework of micromainframe design shared by multiple systems main frame according to this, a kind of design concept very feasible, that also can address the above problem of gained.Promptly attempt the micromainframe more than an one is installed in the cabinet, each micromainframe is shared a power supply unit, and the switching bridge of corresponding micromainframe quantity is set in the cabinet back side, in order to connect the correspondence output/inbound port of each micromainframe, make external hardware or peripherals connect corresponding micromainframe by the cabinet outside.

Therefore, fundamental purpose of the present utility model promptly is to provide a kind of multisystem to share main frame, by the switching design of switching bridge and patchcord, can significantly dwindle needed space and the cost of being provided with of multi-section main frame.

The purpose of this utility model realizes like this:

Shared by multiple systems main frame provided by the utility model, it installs an above micromainframe, switching bridge and a power supply unit at least in cabinet, each micromainframe is shared this power supply unit, and the switching bridge of corresponding micromainframe quantity is installed in the cabinet back side, each bridge of transferring is provided with several output/go into port, and the correspondence that the patchcord by relative populations is switched to each micromainframe exports/goes into the port, makes external hardware or peripherals connect corresponding micromainframe by cabinet is outside.The needed space that is provided with of multi-section main frame will be significantly dwindled in design by this, and shared power supply can be easy to management, reduces cost and reduce power wastage.

According to the utility model embodiment preferred, wherein, described patchcord two ends are respectively equipped with transit bridging head and main frame joint, can be for corresponding corresponding output of connecting bridge joint head and micromainframe/go into port.

Described micromainframe comprises at least: a casket shell is provided with a CD-ROM drive at least and releases mouth and several perforates; One motherboard is to be arranged at casket shell inside, and its first joint and second joint that is used to connect hard disk and CD-ROM device is to be provided with at interval; One switching circuit board, be stacked and placed on the motherboard, its back side can supply a stacked hard disk, the front can supply a stacked CD-ROM drive, this switching circuit board back side is respectively equipped with the hard disk joint that the 3rd joint that can plug with aforementioned first, second joint and the 4th joint and are connected the 3rd joint, the switching circuit board front then is provided with the CD-ROM drive joint of a connection second joint, and described hard disk joint is to peg graft mutually with the joint of hard disk, and the CD-ROM drive joint then can be pegged graft mutually with the joint of CD-ROM drive; One bracing frame is stacked and placed on the switching circuit board and between the CD-ROM drive, in order to winding CD-ROM drive and hard disk.

Simultaneously, this switching circuit board, bracing frame surface all are provided with several corresponding perforation for screw is set, in order to be locked in several standard screws of harddisk surface.In addition, these bracing frame both sides all are provided with the turnover plate, can be for double team in the both sides of CD-ROM drive; Two turnover plate surfaces also are provided with several perforation for screw is set, in order to be locked in several standard screws of CD-ROM drive both sides.

According to preferred embodiment of the present utility model, first joint and second joint can the spaced and parallel settings on the described motherboard, and it is provided with the width that distance can be slightly larger than hard disk at interval.But the 3rd joint and the also spaced and parallel setting of the 4th joint on the described switching circuit board are provided with the width that distance can be slightly larger than hard disk at interval.The spacing of described two turnover plates preferably equals the width of CD-ROM drive.

Like this, shared by multiple systems main frame provided by the utility model just can significantly dwindle the needed space that is provided with of multi-section main frame, and shared power supply can be easy to management, reduces cost and reduce power wastage.

Description of drawings

Fig. 1 is an organigram of the present utility model.

Fig. 2 is a switching bridge schematic perspective view of the present utility model.

Fig. 3 is a patchcord schematic perspective view of the present utility model.

Fig. 4 is a microcomputer schematic appearance of the present utility model.

Fig. 5 is the local structure decomposing schematic representation of microcomputer of the present utility model.

Fig. 6 is the complete construction decomposing schematic representation of microcomputer of the present utility model.

Fig. 7 is the switching circuit board front schematic perspective view of microcomputer.

Fig. 8 is the switching circuit board reverse side schematic perspective view of microcomputer.

Fig. 9 is the bracing frame schematic perspective view of microcomputer.

The simple declaration of figure number:

1 casket shell, 11 CD-ROM drives are released mouthful 12 cover plates, 2 motherboards

The port is exported/gone into to 21 first joints, 22 second joints 23

3 switching circuit boards 31 the 3rd joint 32 the 4th joint

33 hard disk joints, 34 CD-ROM drive joints, 35 perforation, 4 bracing frames

441 perforation of 41 perforation, 42 spiral shells, 44 turnover plates

442 spiral shells, 5 hard disks, 51 joints, 52 standard screws

6 CD-ROM drives, 61 joints, 62 standard screws, 7 cabinets

The port is exported/gone into to 71 micromainframes, 72 switching bridges 721

73 patchcords, 731 transit bridging heads, 732 main frame joints

Embodiment

The purpose of this utility model, feature and effect are easier to be understood in order to make, and now by following specific embodiment, and cooperates appended graphicly, the utility model is described in detail as follows:

Seeing also Fig. 1, is organigram of the present utility model.As shown in the figure: multisystem of the present utility model is shared main frame, includes a cabinet 7, three micromainframes 71, a power supply unit 74, three switching bridges 72 and several patchcords 73.Wherein, each micromainframe 71 is installed in cabinet 7 inner correspondences towards front (the promptly general position that CD-ROM drive, floppy drive, Hard Disk Drive are installed), power supply unit 74 is installed on the top of cabinet 7 back, three switching bridges 72 then interval are installed in the bottom (the promptly general position that modulator-demodular unit is installed) of cabinet 7 back, and 73 of several patchcords are located at cabinet 7 inside and are used to connect corresponding micromainframe 71 and switching bridge 72.

Seeing also Fig. 2, is switching bridge schematic perspective view of the present utility model.As shown in the figure: this switching bridge 72 is provided with several output/inbound ports (or claiming to export/go into the port) 721 (as screen joint, keyboard connector, mouse joint or printer connections or the like), each output/inbound port 721 outer end can be for hardware or peripheral equipments such as connection screen, keyboard, mouses, the inner then patchcord 73 that supplies the grafting corresponding form.

Seeing also Fig. 3, is patchcord schematic perspective view of the present utility model.As shown in the figure: these patchcord 73 two ends are respectively equipped with transit bridging head 731 and main frame joint 732, this transit bridging head 731 can be for some output/inbound ports 721 of connecting in the switching bridge 72, and port 23 (as shown in Figure 4) be exported/be gone into to 732 of this main frame joints can for the correspondence of connecting micromainframe 71.The kind kenel of exporting/go into port 23,721 in response to the correspondence of micromainframe 71, switching bridge 72 is various, the transit bridging head 731 at these patchcord 73 two ends also must correspondingly be set as multiple kind kenel with main frame joint 732, i.e. the kind of patchcord 73 is difference to some extent in response to the connector kenel of various external hardware or peripherals.

Share the design of main frame by aforementioned multisystem of the present utility model, multi-section micromainframe 71 can be integrated and be installed in the cabinet 7, and sharing a power supply unit 74 (as shown in Figure 1), and assemble the size after finishing, only is the main frame size of general common desktop PC.Therefore in the present embodiment, saved the accommodation space of an above traditional calculations machine host, and its can arrange in pairs or groups hardware or peripherals such as the employed power supply of general computing machine, printer and screen, so, not only significantly dwindled the required space that is provided with, and shared power supply can be easy to management, reduces cost and reduce power wastage.

Though aforementioned micromainframe 71 is not the target that the utility model is applied for a patent, the implementation phase of can reaching in order to prove, still be aided with graphic cooperation explanation:

Seeing also Fig. 4 and Fig. 5, is respectively the utility model microcomputer schematic appearance and local structure decomposing schematic representation thereof.As shown in the figure: this micromainframe 71 comprises casket shell 1, motherboard 2, switching circuit board 3, bracing frame 4 and arranges in pairs or groups hard disk 5 and CD-ROM drive 6; Wherein:

This casket shell 1, be provided with a CD-ROM drive and release the perforate of each connector on mouth 11 and several respective hosts plate 2 front ends, and a movable cover plate 12 is set at least overleaf, on cover plate 12, also be provided with perforate and a plurality of vent port of a plurality of respective hosts plate 2 each connector of rear end, wherein the setting of vent port is because the utility model is microminiaturized main frame framework, utilize the radiator fan forced heat radiation and guide thermal source to discharge, can increase its radiating efficiency by vent port;

This motherboard 2, can be for being arranged at aforesaid casket shell 1 inside, they are except the various connector that includes existing motherboard, general-purpose serial bus, various control chip etc., mainly be that first joint 21 and second joint 22 that connects hard disk 5 and CD-ROM drive 6 adopts the parallel interval settings, and it is provided with the width that distance is slightly larger than hard disk 5 at interval; In addition, its part is exported/is gone into port 23 and is arranged at the back side (please in conjunction with consulting Fig. 6);

This switching circuit board 3 is stacked and placed on the aforementioned motherboard 2, and its back side can supply winding hard disk 5;

This bracing frame 4 is stacked and placed on the aforementioned switching circuit board 3, can be for assembling CD-ROM drive 6 on it.

Aforementioned part is formed the general framework of the alleged main frame of the utility model, and its detailed lamination Business Information and IT Solution Mgmt Dep divides and cooperates other graphic being described as follows:

Seeing also Fig. 7 and Fig. 8, is respectively the switching circuit board front schematic perspective view and the reverse side schematic perspective view thereof of microcomputer.As shown in the figure: the back side of this switching circuit board 3 is respectively equipped with and can plugs and be corresponding the 3rd joint 31 that be arranged in parallel and the 4th joint 32 (it is provided with the width that distance is slightly larger than hard disk 5 at interval) with aforementioned first joint 21, second joint 22 (please cooperate and consult Fig. 6), and the hard disk joint 33 of a connection the 3rd joint 31; The front of this switching circuit board 3 then is provided with the CD-ROM drive joint 34 of a connection the 4th joint 32; This hard disk joint 33 can be pegged graft mutually with the joint 51 of hard disk 5, and CD-ROM device joint 34 then can be pegged graft mutually with the joint 61 of CD-ROM drive 6; In addition, the surface of this switching circuit board 3 is provided with several perforation 35, and is corresponding with several standard screws 52 on hard disk 5 surfaces.

Seeing also Fig. 9, is the bracing frame schematic perspective view of microcomputer.As shown in the figure: 35 the position of respectively boring a hole of the surperficial corresponding switching circuit board 3 of this bracing frame 4 is provided with several perforation 41, all be provided with turnover plate 44 in addition in bracing frame 4 both sides, the spacing of two turnover plates 44 equals the width (please cooperate and consult Fig. 6) of CD-ROM drive 6, can be for double team in the both sides of CD-ROM drive 6, and the surface of two turnover plates 44 is provided with several perforation 441 for screw 442 is set, in order to be locked in several standard screws 62 of CD-ROM drive 6 both sides.

The assembling sequence of aforementioned each part (please cooperate and consult Fig. 4, Fig. 5, Fig. 6), roughly as follows:

Step 1: at first hard disk 5 is arranged at the back side of switching circuit board 3, and its joint 51 and hard disk joint 33 are plugged, with the correspondence perforation 35 of four standard screws 52 on hard disk 5 surfaces, again with its turn-over together in alignment with switching circuit board 3;

Step 2: bracing frame 4 is stacked and placed on the switching circuit board 3, utilize four screws 42 to pass corresponding perforation 41 and bore a hole 35 and screw lock in four standard lockholes 52 on hard disk 5 surfaces, make bracing frame 4 be fixed in switching circuit board 3 fronts, and make hard disk 5 simultaneously in conjunction with fixing;

Step 3: CD-ROM drive 6 is stacked and placed on the bracing frame 4, and its joint 61 is plugged with CD-ROM drive joint 34, utilize four screws 442 to pass perforation 441 screw locks, and make CD-ROM drive 6 connections and relative fixed in switching circuit board 3 fronts (on the bracing frame 4) in four standard screws 62 of CD-ROM drive 6 both sides;

Step 4: switching circuit board 3 is stacked and placed on the motherboard 2, first joint 21 and second joint 22 on the motherboard 2 are aimed at and be plugged in to the 3rd joint 31 and the 4th joint 32 respectively, make switching circuit board 3 connect and be fixed on the motherboard 2;

Step 5: motherboard 2 is inserted casket shell 1 inside, make CD-ROM drive 6 front ends release mouth 11, reach each perforate of the various connector of motherboard 2 front ends in alignment with casket shell 1 front end in alignment with CD-ROM drive, then cover plate 12 is locked in casket shell 1 rear end, make each perforate of the various connector in motherboard 2 rear ends, finish integral installation in alignment with cover plate 12 surfaces.

Can obtain thus with general desktop PC main frame on the micromainframe of the CD-ROM drive same size of being installed, in the present embodiment, its actual size is 24.8cm * 14.8cm * 4.2cm (as shown in Figure 4), with traditional desktop PC main frame is that 45cm * 20cm * 40cm compares, its volume dwindles 23 times approximately, therefore multi-section micromainframe 71 is installed in the cabinet 7 (as shown in Figure 1), its occupied space is very little, and much smaller than the volume of putting three traditional desktop PC main frames simultaneously.Only illustrate in the present embodiment, can come to determine the quantity of micromainframe in the practical application as required so that three micromainframes to be installed.

The design of the main frame that the multisystem that aforementioned the utility model provides is shared, can adopt general computer cabinet, inside can hold the microminiaturized main frame of multi-section, need not to purchase individually different main frames for use, and the waste of the minimizing space and the energy (as electric power), can significantly dwindle occupied space of main frame and use cost, meet volume-diminished, assemble application simple, with better function, power saving space-efficient main frame.The utility model is designed and developed already, successfully completes, and reaches significantly power saving space-efficient effect really, has industry applications, novelty and the progressive of height.

The above is a preferred embodiment of the present utility model only, is not to be used for limiting the scope that the utility model is implemented.All equalizations of being done according to the utility model claim change and modify, and ought to be contained by the utility model claim.

Claims (10)

1, a kind of multisystem is shared main frame, it is characterized in that, in cabinet, be equiped with an above micromainframe, switching bridge and a power supply unit at least, each micromainframe is shared this power supply unit, and the switching bridge of corresponding micromainframe quantity is installed in the cabinet back side, each bridge of transferring is provided with several output/go into port, and the port is exported/gone into to the correspondence that the patchcord by relative populations is switched to each micromainframe.

2, multisystem as claimed in claim 1 is shared main frame, it is characterized in that these patchcord two ends are respectively equipped with transit bridging head and main frame joint, the output that its corresponding connection bridge joint head is corresponding with micromainframe/go into port.

3, multisystem as claimed in claim 1 is shared main frame, it is characterized in that this micromainframe comprises at least:

At least be provided with a CD-ROM drive and release the casket shell of mouth and several perforates;

Be arranged at the motherboard of this casket shell inside, be arranged at intervals with first joint and second joint of the joint that is used to connect hard disk and CD-ROM drive on it;

Be stacked and placed on the motherboard and its back side can be for stacked hard disk and positive can be for the switching circuit board of stacked CD-ROM drive, its back side is respectively equipped with the 3rd joint and the 4th joint that can plug with first and second joint and the hard disk plug of connecting the 3rd plug, positive then be provided with the CD-ROM drive joint of connecting second joint, and each hard disk joint can be pegged graft mutually, and the CD-ROM drive joint can be pegged graft mutually;

Be stacked and placed on this switching circuit board and between the CD-ROM drive and in order to the bracing frame of winding CD-ROM drive and hard disk.

4, multisystem as claimed in claim 3 is shared main frame, it is characterized in that, this switching circuit board, bracing frame surface all are provided with for lock several corresponding perforation of hard disk of screw are set.

5, multisystem as claimed in claim 3 is shared main frame, it is characterized in that first joint and second joint are the spaced and parallel setting on the motherboard.

6, share main frame as claim 3 or 5 described multisystems, it is characterized in that, the interval of first joint and second joint is provided with the width that distance is slightly larger than hard disk on the motherboard.

7, multisystem as claimed in claim 3 is shared main frame, it is characterized in that the 3rd joint and the 4th joint are the spaced and parallel setting on the switching circuit board.

8, share main frame as claim 3 or 7 described multisystems, it is characterized in that, the interval of the 3rd joint and the 4th joint is provided with the width that distance is slightly larger than hard disk on the switching circuit board.

9, multisystem as claimed in claim 3 is shared main frame, it is characterized in that, but the support frame as described above both sides all is provided with the turnover plate of double team in the CD player both sides.

10, multisystem as claimed in claim 9 is shared main frame, it is characterized in that, the spacing of two turnover plates equals the width of CD-ROM drive.

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