CN203689292U - Network server with modular exchanger - Google Patents

Abstract

The utility model relates to a network server with a modular exchanger. The network server is composed of a shell and a plurality of exchanger modules, wherein the shell is provided with a plurality of containing spaces. The frame of the network server is designed in a modular mode, and the number of the exchanger modules can be increased or decreased in the mode that a user extracts the exchanger modules out of the network server or inserts the exchanger modules into the network server so that the requirement for actual use can be met. Further, each exchanger module is modularized, so that the size of each exchanger module is minimized, and the purpose of saving space is achieved. In this way, the user can replace transmit-receive unit sets inside the exchanger modules with singlemode transmit-receive unit sets or doublemode transmit-receive unit sets according to the requirement for actual use; in addition, optical fiber slots formed in the singlemode transmit-receive unit sets or the doublemode transmit-receive unit sets have no spherical limits, so that the slots are ROSA optical fiber slots or TOSA optical fiber slots or RJ45 optical fiber slots.

Description

There is the webserver of modularization interchanger

Technical field

The utility model, about a kind of network servo system, refers to a kind of webserver with modularization interchanger that can change easily exchanger module especially.

Background technology

In recent years, due to the progress of Information technology and popularizing of network, the application of server is more and more many.Substantially, server provides each client resource of share web environment each other in the network of computing machine.Generally speaking, the basic framework of server and general personal computer are roughly the same, by least one central processing unit (CPU), at least one internal memory (Memory) and at least the parts such as ㄧ I/O (I/O) equipment formed.

Refer to Fig. 1, the simple solid figure of existing server; As shown in Figure 1, existing server 1 ' has a main casing 11 ', and the inside of this main casing 11 ' is provided with at least one central processing unit (CPU), at least one internal memory (Memory) and at least ㄧ I/O (I/O).And as shown in the figure, the exchanger module 12 ' that can substitute sees through the one opening 111 ' of main casing 11 ' and is placed in this main casing 11 '; So, one communication cables, example Connectorized fiber optic cabling 2 ' as shown in Figure 1, its one end can be connected to arbitrary exchange port 121 ' of this exchanger module 12 ', and, the other end of this Connectorized fiber optic cabling 2 ' can be connected to a computing machine or a network printer, and then makes the resource that this computing machine or this network printer can share web environment.

The server of the server 1 ' that Fig. 1 illustrates for often using at present, so, it has shortcoming significantly and, with not enough, arranges as follows:

1. though the exchanger module 12 ' of this server 1 ' is what can substitute, so, as shown in Figure 1, the exchange port 121 ' that this exchanger module 12 ' has two rows (, doublemodefiber transceiver), and it does not allow user's self-changeable to become an independent row's exchange port 121 ' (, singlemodefibertransceiver), and this exchanger module 12 ' that hence one can see that has the Flexible change that exchange port 121 ' lacks in practice.

2. hold above-mentioned the 1st point, in addition, as the exchange port 121 ' that Fig. 1 illustrated, it is all SFP port (SmallForm-factorPluggable), user also cannot replace to the SFP port of part for the demand in practice the exchange port 121 ' of other type, for example, replace to RJ45 port.

Therefore, the comprehensive above-mentioned explanation for existing server, can learn that the exchanger module of this server still has many shortcomings with not enough; In view of this, the creator of this case does one's utmost study and composition in addition, and has has finally researched and developed a kind of webserver with modularization interchanger of the present utility model.

Prior art:

1 ' server 11 ' main casing

12 ' exchanger module 111 ' opening

121 ' exchange port 2 ' Connectorized fiber optic cabling

Utility model content

The first object of the present utility model, be to provide a kind of webserver with modularization interchanger, with the framework of modular mode planned network server, making user to see through the mode that extracts/insert this webserver increase/reduce the quantity of the exchanger module of webserver inside, to meet the demand in its actual use.

The second object of the present utility model, is to provide a kind of webserver with modularization interchanger, by the exchanger module of webserver inside modularization further, and then the volume of exchanger module is minimized, and reaches joint space-efficient object; And user can, according to the demand on its actual use, be replaced by single work (singlemode) Transmit-Receive Unit group or duplex (doublemode) Transmit-Receive Unit group by the Transmit-Receive Unit group of exchanger module inside; In addition, the optical fiber slot that Transmit-Receive Unit group has is not particularly limited, and it can be optionally ROSA optical fiber slot, TOSA optical fiber slot or RJ45 optical fiber slot.

In order to reach the purpose of this utility model, the utility model proposes a kind of webserver with modularization interchanger, comprising:

One housing, its inside is cut apart multiple accommodation spaces; And

Multiple exchanger module, are placed in respectively in this accommodation space, and each exchanger module comprises: a loading plate; One main panel, is arranged on this loading plate, and is positioned at the front end of this loading plate; One main circuit board, is arranged on this loading plate, and the surface of this main circuit board is provided with at least one processing unit and at least one first electrical slot; And an interchanger, being arranged on this main circuit board by being connected on this first electrical slot, this interchanger has:

One first sub-circuit board, has an opening;

At least one optical fiber relay, is arranged on one first sub-circuit board surface of this first sub-circuit board;

The sub-device of one power connector end, one body is arranged on this first sub-circuit board surface, and its multiple terminal slots are exposed to outside one second sub-circuit board surface of this first sub-circuit board;

One second sub-circuit board, is provided with one first electric connector and one second electric connector on one the 3rd sub-circuit board surface; Wherein, this second sub-circuit board is by by this first electric connector and one second electric connector inserts respectively this first electrical slot and the sub-device of this power connector end is arranged at this first sub-circuit board; And this first electric connector is arranged among this opening;

Multiple Transmit-Receive Unit groups, are arranged on the 3rd sub-circuit board surface of this second sub-circuit board, and are connected with many first Connectorized fiber optic cablings, and those first Connectorized fiber optic cablings also connect one first optical fiber joint end of this optical fiber relay simultaneously; And

At least one Connectorized fiber optic cabling connectors, its one end is in order to connect many external fiber cables, and its other end is connected with many second Connectorized fiber optic cablings, and those second Connectorized fiber optic cablings also connect one second optical fiber joint end of this optical fiber relay simultaneously.

The webserver with modularization interchanger as above, also comprises: at least one rear end main control module, within being arranged at this accommodation space, and has multiple main circuit board slots.

The webserver with modularization interchanger as above, wherein, this housing also comprises:

Multiple dividing plates, are arranged at this enclosure interior, to be separated out the plurality of accommodation space in enclosure interior; And

Many group assistant sliding assemblies, be arranged at this enclosure interior, and lay respectively at the bottom of the madial wall of those dividing plates, slip into accordingly in each accommodation space in order to auxiliary each exchanger module, make one of each main circuit board be electrically connected interface and insert among each main circuit board slot.

The webserver with modularization interchanger as above, wherein, this exchanger module also comprises:

At least one second electrical slot, is arranged on this main circuit board, in order to plug at least one internal memory;

One heat radiator, is placed on lip-deep this at least one processing unit of this main circuit board;

One radiating tube, is placed on this heat radiator; And

One heating radiator, is placed on this radiating tube.

The webserver with modularization interchanger as above, wherein, this interchanger also comprises:

One bottom, for this first sub-circuit board, this at least one optical fiber relay, the sub-device of this power connector end, this second sub-circuit board, the plurality of Transmit-Receive Unit group and this at least one Connectorized fiber optic cabling connectors setting thereon;

At least one LED connector, is arranged on this first sub-circuit board;

One sub-panel, is attached at the internal face of this main panel, and is positioned at the front opening place of this bottom;

Multiple LED assemblies, are arranged on this sub-panel, and a light-emitting area of those LED assemblies is exposed to outside this sub-panel and this main panel, and an electric terminal of those LED assemblies is connected to this at least one LED connector; And

One enclosing cover, combines with this this bottom mutually in the mode of pivot joint.

The webserver with modularization interchanger as above, wherein, the outside surface of this bottom and this enclosing cover has dug multiple louvres.

The webserver with modularization interchanger as above, wherein, the bottom of this second sub-circuit board is provided with multiple insulated columns, and on this first sub-circuit board surface of this first sub-circuit board, offer multiple screws, make multiple double-screw bolts to pass respectively those screws and to be screwed among this insulated column.

The webserver with modularization interchanger as above, wherein, at least one double-screw bolt spiral shell is located on this main panel, in order to assist solid this exchanger module of spiral shell in this accommodation space.

The webserver with modularization interchanger as above, wherein, this loading plate also comprises:

One extension, be formed at the dual-side of this loading plate, and the below of this extension presents a groove; And these two extensions of the dual-side of this loading plate define a main circuit board setting area on loading plate; And

The one protruding wing, the distolateral of this extension extended certainly.

The webserver with modularization interchanger as above, wherein, this Transmit-Receive Unit group is ROSA Transmit-Receive Unit group, TOSA Transmit-Receive Unit group or RJ45 Transmit-Receive Unit group.

The webserver with modularization interchanger as above, wherein, this Connectorized fiber optic cabling connectors is ROSA/ROSA Connectorized fiber optic cabling connectors, ROSA/TOSA Connectorized fiber optic cabling connectors, ROSA/RJ45 Connectorized fiber optic cabling connectors, TOSA/TOSA Connectorized fiber optic cabling connectors, TOSA/ROSA Connectorized fiber optic cabling connectors, TOSA/RJ45 Connectorized fiber optic cabling connectors, RJ45/RJ45 Connectorized fiber optic cabling connectors, RJ45/ROSA Connectorized fiber optic cabling connectors or RJ45/TOSA Connectorized fiber optic cabling connectors

Compared with prior art, the beneficial effects of the utility model are:

1. in the utility model, as shown in Figure 2, with the framework of modular mode planned network server, making user to see through the mode that extracts/insert this webserver increase/reduce the quantity of exchanger module 12, to meet the demand in its actual use.

2. hold above-mentioned the 1st point, in addition, as shown in Fig. 3 and Fig. 5, the utility model, further by the modularization of each exchanger module 12, minimizes the volume of exchanger module 12, reaches joint space-efficient object; And, as shown in Figure 8, user can, according to the demand on its actual use, be replaced by single work (singlemode) Transmit-Receive Unit group 1247 or duplex (doublemode) Transmit-Receive Unit group 1247 by the Transmit-Receive Unit group 1247 of exchanger module 12 inside; And the optical fiber slot that the Transmit-Receive Unit group 1247 of changing has is not particularly limited, it can be optionally ROSA optical fiber slot, TOSA optical fiber slot or RJ45 optical fiber slot.

3. hold above-mentioned the 2nd point, and, as shown in Figure 9, corresponding to the pattern of different Transmit-Receive Unit groups 1247, user can also replace to Connectorized fiber optic cabling connectors 1249 RJ45/ROSA Connectorized fiber optic cabling connectors, RJ45/TOSA Connectorized fiber optic cabling connectors, ROSA/TOSA Connectorized fiber optic cabling connectors, ROSA/RJ45 Connectorized fiber optic cabling connectors, TOSA/ROSA Connectorized fiber optic cabling connectors, TOSA/RJ45 Connectorized fiber optic cabling connectors or RJ45/RJ45 Connectorized fiber optic cabling connectors.

Brief description of the drawings

Fig. 1 is the simple solid figure of existing server;

Fig. 2 is the decomposition module figure of a kind of webserver with modularization interchanger of the present utility model;

Fig. 3 is the exploded view with an exchanger module of the webserver of modularization interchanger;

The stereographic map of the interchanger that Fig. 4 A and Fig. 4 B are exchanger module;

Fig. 5 is the exploded view of interchanger;

The three-dimensional exploded view of the part assembly that Fig. 6 A and Fig. 6 B are interchanger;

Fig. 7 is the stereographic map of a loading plate of exchanger module;

Fig. 8 is the stereographic map of a Transmit-Receive Unit group of interchanger; And

Fig. 9 is the stereographic map of a Connectorized fiber optic cabling connectors of interchanger.

Main symbol description in figure:

1 has the webserver of modularization interchanger

11 housing 12 exchanger module

112 dividing plate 111 accommodation spaces

113 assistant sliding assembly 123 main circuit boards

1233 are electrically connected interface 124H double-screw bolt

122 main panel 121 loading plates

The electrical slot of 1231 processing unit 1,232 first

124 interchanger 1,241 first sub-circuit boards

The sub-device of 1242 optical fiber relay 1243 power connector end

1244 second sub-circuit board 1247 Transmit-Receive Unit groups

1249 Connectorized fiber optic cabling connectors 124B bottoms

124CLED connector 124D sub-panel

124ELED assembly 124F enclosing cover

12411 opening 12,412 first sub-circuit board surfaces

12414 screw 12,413 second sub-circuit board surfaces

1245 first electric connector 1,246 second electric connectors

12443 insulated column 124G double-screw bolts

12442 the 3rd sub-circuit board surface 1,248 first Connectorized fiber optic cablings

12421 first optical fiber joint end 124A the second Connectorized fiber optic cablings

12422 second optical fiber joint end 1211 extensions

The 1212 protruding wings in main circuit board setting area 1213

1234 second electrical slot 1235 internal memories

1236 heat radiator 1237 radiating tubes

1238 heating radiators

Embodiment

A kind of webserver with modularization interchanger proposing in order more clearly to describe the utility model, below will coordinate graphicly, elaborate preferred embodiment of the present utility model.

Please refer to Fig. 2, the decomposition module figure of a kind of webserver with modularization interchanger of the present utility model; And, please refer to Fig. 3, there is the exploded view of the exchanger module among the webserver of modularization interchanger.As shown in Figure 2 and Figure 3, the webserver 1 with modularization interchanger of the present utility model mainly comprises: a housing 11 and multiple exchanger module 12, wherein, the inside of housing 11 is provided with at least one rear end main control module (not icon), and has multiple main circuit board slots.In addition, as shown in Figure 2, multiple dividing plates 112 are located in this housing 11, to go out the plurality of accommodation space 111 in housing 11 interior separations; And, the bottom of the madial wall of those dividing plates 112 is respectively equipped with an assistant sliding assembly 113, slip into accordingly in each accommodation space 111 in order to auxiliary each exchanger module 12, make one of each main circuit board 123 be electrically connected interface 1233 and insert among each main circuit board slot.Moreover at least one double-screw bolt 124H spiral shell is located on the main panel 122 of this exchanger module 12, in order to assist solid this exchanger module 12 of spiral shell in this accommodation space 111.

As shown in the figure, be placed in the plurality of exchanger module 12 in this accommodation space 111, wherein each exchanger module 12 includes: a loading plate 121; One main panel 122, is arranged on this loading plate 121, and is positioned at the front end of this loading plate 121; One main circuit board 123, is arranged on this loading plate 121, and the surface of this main circuit board 123 is provided with at least one processing unit 1231 and at least one first electrical slot 1232; And an interchanger 124, be arranged on this main circuit board 123 by being connected on this first electrical slot 1232.

Please continue to refer to Fig. 2 and Fig. 3, and please refer to Fig. 4 A and Fig. 4 B, the stereographic map of interchanger; And, please consult again Fig. 5, the exploded view of interchanger simultaneously.As shown in the figure, especially, in the utility model, this interchanger 124 has: one first sub-circuit board 1241, at least one optical fiber relay 1242, the sub-device 1243 of a power connector end, one second sub-circuit board 1244, multiple Transmit-Receive Unit group 1247, two Connectorized fiber optic cabling connectors 1249, a bottom 124B, at least one LED connector 124C, a sub-panel 124D, multiple LED assembly 124E and enclosing cover 124F.

For the webserver system with modular interchanger of the present utility model is more clearly described, please consult at the same time Fig. 6 A and Fig. 6 B, the three-dimensional exploded view of the part assembly of this interchanger 124.As shown in the figure, this first sub-circuit board 1241 has an opening 12411, and offers multiple screws 12414 on one first sub-circuit board surface 12412 of this first sub-circuit board 1241.Separately, this 1242, at least one optical fiber relay is arranged on one first sub-circuit board surface 12412 of this first sub-circuit board 1241.And the body of the sub-device 1243 of this power connector end is arranged on this first sub-circuit board surface 12412, and its multiple terminal slots are exposed to outside one second sub-circuit board surface 12413 of this first sub-circuit board 1241.

Hold above-mentioned explanation, on the 3rd sub-circuit board surface 12441 of the second sub-circuit board 1244, be provided with one first electric connector 1245 and one second electric connector 1246, and the bottom of this second sub-circuit board 1244 is provided with multiple insulated columns 12443.As shown in the figure, the second sub-circuit board 1244 is arranged at this first sub-circuit board 1241 by the first electric connector 1245 and the second electric connector 1246 being inserted respectively to this first electrical slot 1232 with the sub-device 1243 of this power connector end; In addition, this first electric connector 1245 is arranged among this opening 12411.In the utility model, by using multiple double-screw bolt 124G pass respectively those screws 12414 and be screwed among this insulated column 12443, can will firmly the second sub-circuit board 1244 be combined on this first sub-circuit board 1241.

The webserver 1 with modularization interchanger of the present utility model is described unceasingly, wherein, the plurality of Transmit-Receive Unit group 1247 is arranged on one the 3rd sub-circuit board surface 12442 of this second sub-circuit board 1244, and be connected with many first Connectorized fiber optic cablings 1248, and those first Connectorized fiber optic cablings 1248 also connect one first optical fiber joint end 12421 of this optical fiber relay 1242 simultaneously.As shown in the figure, the quantity of Transmit-Receive Unit group 1247 is four, and this Transmit-Receive Unit group 1247 is a duplex (Duplex) Transmit-Receive Unit group; And, corresponding to those Transmit-Receive Unit groups 1247, one side of this Connectorized fiber optic cabling connectors 1249 has 8 optical fiber slots in order to connect many external fiber cables 2, and the opposite side of this Connectorized fiber optic cabling connectors 1249 has 8 optical fiber slots equally in order to connect many second Connectorized fiber optic cabling 124A, wherein, those second Connectorized fiber optic cablings 124A connects one second optical fiber joint end 12422 of this optical fiber relay 1242.

In addition, in the composition structure of this interchanger 124, this bottom 124B arranges thereon with this at least one Connectorized fiber optic cabling connectors 1249 for this first sub-circuit board 1241, this at least one optical fiber relay 1242, the sub-device 1243 of this power connector end, this second sub-circuit board 1244, the plurality of Transmit-Receive Unit group 1247; Accordingly, this enclosing cover 124F combines with this this bottom 124B mutually in the mode of pivot joint, and as shown in the figure, the outside surface of this bottom 124B and this enclosing cover 124F has dug multiple louvre 124B1.Moreover this at least one LED connector 124C is arranged on this first sub-circuit board 1241, and this sub-panel 124D is attached at wall within this main panel 122, and is positioned at the front opening place of this bottom 124B.Separately, the plurality of LED assembly 124E is arranged on this sub-panel 124D, and a light-emitting area of those LED assemblies 124E is exposed to outside this sub-panel 124D and this main panel 122, an electric terminal of those LED assemblies 124E is connected to this at least one LED connector 124C.

So, above-mentioned so that the basic building block composition of the webserver 1 with modularization interchanger of the present utility model to be described.Please consult again Fig. 7, the stereographic map of the loading plate among exchanger module simultaneously.In this, must go again supplementary notes, for make exchanger module 12 easily this assistant sliding assembly 113 cooperatively interact, as shown in Figure 7, the dual-side of loading plate 121 respectively stroke has an extension 1211, and the below of this extension 1211 presents a groove; And these two extensions 1211 of the dual-side of this loading plate 121 define a main circuit board setting area 1212 on loading plate 121.Separately, a protruding wing 1213 extends from the distolateral of this extension 1211.So, within exchanger module 12 is placed into this accommodation space 111 time, this assistant sliding assembly 113 will embed the groove of these extension 1211 belows, make within exchanger module 12 can successfully slip into this accommodation space 111 along assistant sliding assembly 113.

Hold above-mentioned explanation, in addition, be more provided with at least one second electrical slot 1234 on main circuit board 123, it is in order to plug at least one internal memory 1235.In addition, some radiating components, for example heat radiator 1236, radiating tube 1237 are also placed on this main circuit board 123, to strengthen heat radiation function with heating radiator 1238; As shown in Figure 3, heat radiator 1236 is placed on lip-deep this at least one processing unit 1231 of this main circuit board 123, and radiating tube 1237 is placed on this heat radiator 1236, and heating radiator 1238 is placed on this radiating tube 1237.

Please continue again to consult Fig. 8 and Fig. 9, be respectively the stereographic map of Transmit-Receive Unit group and Connectorized fiber optic cabling connectors.In the utility model, Transmit-Receive Unit group 1247 shown in earlier figures 5 is a duplexing Transmit-Receive Unit group, or rather, it is the duplexing Transmit-Receive Unit group of ROSA (ReceiveOpticalSub-Assembly) or TOSA (TransmitOpticalSub-Assembly); But in the application of some reality, as shown in Figure 8, Transmit-Receive Unit group 1247 can be also single work Transmit-Receive Unit group of RJ45 (RegisteredJack45).But, the above-mentioned explanation about Transmit-Receive Unit group 1247, not in order to limit the enforcement aspect of this Transmit-Receive Unit group 1247, more broadly, this Transmit-Receive Unit group 1247 can be also the mono-work Transmit-Receive Unit of ROSA group, TOSA mono-work Transmit-Receive Unit group or RJ45 duplex Transmit-Receive Unit group.

Similarly, the Connectorized fiber optic cabling connectors 1249 shown in earlier figures 5 is a ROSA/ROSA Connectorized fiber optic cabling connectors or a TOSA/TOSA Connectorized fiber optic cabling connectors; So, in the application of some reality, as shown in Figure 9, Connectorized fiber optic cabling connectors 1249 can be also, RJ45/ROSA Connectorized fiber optic cabling connectors or RJ45/TOSA Connectorized fiber optic cabling connectors.But, the above-mentioned explanation about Connectorized fiber optic cabling connectors 1249, not in order to limit the enforcement aspect of this Connectorized fiber optic cabling connectors 1249, more broadly, Connectorized fiber optic cabling connectors 1249 can be also ROSA/TOSA Connectorized fiber optic cabling connectors, ROSA/RJ45 Connectorized fiber optic cabling connectors, TOSA/ROSA Connectorized fiber optic cabling connectors, TOSA/RJ45 Connectorized fiber optic cabling connectors or RJ45/RJ45 Connectorized fiber optic cabling connectors.

Above embodiment is only exemplary embodiment of the present utility model, is not used in restriction the utility model, and protection domain of the present utility model is defined by the claims.Those skilled in the art can, in essence of the present utility model and protection domain, make various amendments or be equal to replacement the utility model, this amendment or be equal to replacement and also should be considered as dropping in protection domain of the present utility model.

Claims (11)

1. a webserver with modularization interchanger, is characterized in that, comprising:

One housing, its inside is cut apart multiple accommodation spaces; And

Multiple exchanger module, are placed in respectively in this accommodation space, and each exchanger module comprises: a loading plate; One main panel, is arranged on this loading plate, and is positioned at the front end of this loading plate; One main circuit board, is arranged on this loading plate, and the surface of this main circuit board is provided with at least one processing unit and at least one first electrical slot; And an interchanger, being arranged on this main circuit board by being connected on this first electrical slot, this interchanger has:

One first sub-circuit board, has an opening;

At least one optical fiber relay, is arranged on one first sub-circuit board surface of this first sub-circuit board;

The sub-device of one power connector end, one body is arranged on this first sub-circuit board surface, and its multiple terminal slots are exposed to outside one second sub-circuit board surface of this first sub-circuit board;

One second sub-circuit board, is provided with one first electric connector and one second electric connector on one the 3rd sub-circuit board surface; Wherein, this second sub-circuit board is by by this first electric connector and one second electric connector inserts respectively this first electrical slot and the sub-device of this power connector end is arranged at this first sub-circuit board; And this first electric connector is arranged among this opening;

Multiple Transmit-Receive Unit groups, are arranged on the 3rd sub-circuit board surface of this second sub-circuit board, and are connected with many first Connectorized fiber optic cablings, and those first Connectorized fiber optic cablings also connect one first optical fiber joint end of this optical fiber relay simultaneously; And

At least one Connectorized fiber optic cabling connectors, its one end is in order to connect many external fiber cables, and its other end is connected with many second Connectorized fiber optic cablings, and those second Connectorized fiber optic cablings also connect one second optical fiber joint end of this optical fiber relay simultaneously.

2. the webserver with modularization interchanger according to claim 1, is characterized in that, also comprises: at least one rear end main control module, within being arranged at this accommodation space, and has multiple main circuit board slots.

3. the webserver with modularization interchanger according to claim 2, is characterized in that, wherein, this housing also comprises:

Multiple dividing plates, are arranged at this enclosure interior, to be separated out the plurality of accommodation space in enclosure interior; And

Many group assistant sliding assemblies, be arranged at this enclosure interior, and lay respectively at the bottom of the madial wall of those dividing plates, slip into accordingly in each accommodation space in order to auxiliary each exchanger module, make one of each main circuit board be electrically connected interface and insert among each main circuit board slot.

4. the webserver with modularization interchanger according to claim 1, is characterized in that, wherein, this exchanger module also comprises:

At least one second electrical slot, is arranged on this main circuit board, in order to plug at least one internal memory;

One heat radiator, is placed on lip-deep this at least one processing unit of this main circuit board;

One radiating tube, is placed on this heat radiator; And

One heating radiator, is placed on this radiating tube.

5. the webserver with modularization interchanger according to claim 1, is characterized in that, wherein, this interchanger also comprises:

One bottom, for this first sub-circuit board, this at least one optical fiber relay, the sub-device of this power connector end, this second sub-circuit board, the plurality of Transmit-Receive Unit group and this at least one Connectorized fiber optic cabling connectors setting thereon;

At least one LED connector, is arranged on this first sub-circuit board;

One sub-panel, is attached at the internal face of this main panel, and is positioned at the front opening place of this bottom;

Multiple LED assemblies, are arranged on this sub-panel, and a light-emitting area of those LED assemblies is exposed to outside this sub-panel and this main panel, and an electric terminal of those LED assemblies is connected to this at least one LED connector; And

One enclosing cover, combines with this this bottom mutually in the mode of pivot joint.

6. the webserver with modularization interchanger according to claim 5, is characterized in that, wherein, the outside surface of this bottom and this enclosing cover has dug multiple louvres.

7. the webserver with modularization interchanger according to claim 1, it is characterized in that, wherein, the bottom of this second sub-circuit board is provided with multiple insulated columns, and on this first sub-circuit board surface of this first sub-circuit board, offer multiple screws, make multiple double-screw bolts to pass respectively those screws and to be screwed among this insulated column.

8. the webserver with modularization interchanger according to claim 1, is characterized in that, wherein, at least one double-screw bolt spiral shell is located on this main panel, in order to assist solid this exchanger module of spiral shell in this accommodation space.

9. the webserver with modularization interchanger according to claim 1, is characterized in that, wherein, this loading plate also comprises:

One extension, be formed at the dual-side of this loading plate, and the below of this extension presents a groove; And these two extensions of the dual-side of this loading plate define a main circuit board setting area on loading plate; And

The one protruding wing, the distolateral of this extension extended certainly.

10. the webserver with modularization interchanger according to claim 1, is characterized in that, wherein, this Transmit-Receive Unit group is ROSA Transmit-Receive Unit group, TOSA Transmit-Receive Unit group or RJ45 Transmit-Receive Unit group.

11. webservers with modularization interchanger according to claim 10, it is characterized in that, wherein, this Connectorized fiber optic cabling connectors is ROSA/ROSA Connectorized fiber optic cabling connectors, ROSA/TOSA Connectorized fiber optic cabling connectors, ROSA/RJ45 Connectorized fiber optic cabling connectors, TOSA/TOSA Connectorized fiber optic cabling connectors, TOSA/ROSA Connectorized fiber optic cabling connectors, TOSA/RJ45 Connectorized fiber optic cabling connectors, RJ45/RJ45 Connectorized fiber optic cabling connectors, RJ45/ROSA Connectorized fiber optic cabling connectors or RJ45/TOSA Connectorized fiber optic cabling connectors.

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