WO2017092208A1

WO2017092208A1 - Installation apparatus and communication system

Info

Publication number: WO2017092208A1
Application number: PCT/CN2016/078131
Authority: WO
Inventors: 李建强; 裘凌红; 谭迅
Original assignee: 中兴通讯股份有限公司
Priority date: 2015-12-02
Filing date: 2016-03-31
Publication date: 2017-06-08
Also published as: CN205353397U

Abstract

An installation apparatus (1) and a communication system. The installation apparatus (1) comprises a first fixing part (11) and a second fixing part (12), wherein a first end of an optical fibre side of a fusion splice protector (2) is connected to a first end of an intelligent module (3) via the first fixing part (11), and at the same time, a second end of the optical fibre side of the fusion splice protector (2) is connected to a second end of the intelligent module (3) via the second fixing part (12), so that the fusion splice protector (2) is connected to the intelligent module (3).

Description

Installation device and communication system

Technical field

The present application relates to the field of communications, for example to a mounting device and a communication system.

Background technique

The traditional fiber fusion disk uses a paper label to mark the state of the fiber port, and the port maintainability is poor, resulting in serious waste of port resources. In order to improve the utilization of optical fiber resources, the device manufacturer proposes the concept of an optical optical distribution network (ODN), that is, adding an intelligent module based on the original optical fiber fusion disk, and using an electronic tag to the optical fiber port resource on the intelligent module. Electronic management. At the same time, the installation, wiring and maintenance of the intelligent module must not affect the normal operation of the original business. Since most of the ODN melt-distribution discs in use were arranged many years ago, there was no industry standard constraint at that time. The fusion-distribution discs of various brands were more messy in size and product shape, so they were installed on each melt-distribution tray. In the case of the intelligent module, the size of the intelligent module needs to be customized to match the size of the fusion-distribution disk, so that the adaptability of the smart module and the fusion-distribution disk is narrow, which is easy to cause waste of resources, high cost, and is not conducive to intelligent ODN. longterm development.

Utility model content

The present application provides a mounting device and a communication system. In the related art, when an intelligent module is installed on a fusion-distribution disk, the smart module needs to be customized according to the size of the fusion-distribution disk, so that the adaptability of the smart module and the fusion-distribution disk is compared. Narrow, easy to cause waste of resources, high cost, and is not conducive to the long-term development of intelligent ODN.

An embodiment of the present invention provides a mounting device including a first fixing member and a second fixing member; The first fixing member includes a first disk body connecting portion and a first module connecting portion connected to each other; the first disk body connecting portion is disposed to be connected to the first end of the frit disk fiber side, the first a module connection portion is disposed to be connected to the first end of the smart module;

The second fixing member includes a second disk body connecting portion and a second module connecting portion connected to each other; the second disk body connecting portion is disposed to be connected to the second end of the frit disk fiber side, the The two module connection portion is disposed to be connected to the second end of the smart module.

Optionally, the first disk body connecting portion includes a first disk body connecting member connected to the melted-disc fiber-side end portion and a first intermediate connecting member connected to the first disk body connecting member;

The first module connection portion includes a first module connector for connecting with the smart module and a second intermediate connector connected to the first module connector;

The first intermediate connector is coupled to the second intermediate connector.

Optionally, the first intermediate connector includes a connecting plate and a first positioning plate connected to the connecting plate; the first positioning plate is provided with a positioning hole and a positioning member matched with the positioning hole, Connecting a connecting plate to the first body connecting member;

The second intermediate connecting member includes a second positioning plate connected to the first module connecting member; the second positioning plate is provided with at least one fixed adjusting through slot; when installed, the second positioning plate is installed The fixed adjustment through groove coincides with the positioning hole on the first positioning plate, the positioning member passes through the fixed adjustment through groove and the positioning hole, and the fixed adjustment through groove and the positioning The hole is fixed.

Optionally, the positioning hole is a screw hole, and the positioning member is a screw member; and the fixing adjustment through groove is located outside the screw hole when installed.

Optionally, a plurality of fixed adjustment through slots are disposed on the second positioning plate; the fixed adjustment through slots are elongated.

Optionally, the first body connector includes a first elastic clamping member connected to the connecting plate; The first module connector includes a first board in a horizontal direction; the first elastic clamping member is clamped to a side wall of the side end of the frit disc fiber and is slidable along the side wall, The first card is inserted into the first fixing slot of the smart module end that is matched with the first card.

Optionally, a positioning buckle is disposed on the front side or the back side of the first board, and the upper inner side wall or the lower inner side wall of the first fixing slot is provided with a positioning card slot matched with the positioning buckle;

After the first card is inserted into the first fixing slot of the end of the smart module, the positioning buckle is inserted into the positioning card slot.

Optionally, the second module connecting portion includes a second inserting plate in a horizontal direction; the second disc body connecting portion includes a second elastic clamping member and the second inserting plate and the second elastic clip a tensioning member connected to the riser; the second elastic clamping member is clamped to a side wall of the melt-disc fiber-side end portion, and the second card is inserted into the smart module end portion and the first The second board is matched in the second fixing slot.

Optionally, a first positioning protrusion is disposed on the front or back surface of the second board, and an upper inner side wall or a lower inner side wall of the second fixing slot is provided with a first matching with the first positioning protrusion. a positioning groove; the second insertion plate is inserted into the second fixing groove of the end of the smart module, and the first positioning protrusion is embedded in the first positioning groove;

Or a second positioning groove is disposed on the front or back surface of the second board, and the upper inner side wall or the lower inner side wall of the second fixing slot is provided with a second positioning convex that matches the second positioning groove. The second insertion plate is inserted into the second fixing groove of the end of the smart module, and the second positioning protrusion is embedded in the second positioning groove.

Optionally, the second disk body connecting portion includes a second disk body connecting member connected to the melted-disc fiber-side end portion and a third intermediate connecting member connected to the second disk body connecting member;

The second module connection portion includes a second module connector for connecting to the second end of the smart module and a fourth intermediate connector connected to the second module connector;

The third intermediate connector is coupled to the fourth intermediate connector.

In order to solve the above technical problem, the present invention further provides a communication system, comprising: a fusion-distribution disk, an intelligent module, and a mounting device as described above, wherein the fusion-distribution disk and the intelligent module pass the mounting device Make a tight connection.

The embodiment of the present invention provides a mounting device and a communication system, the mounting device includes a first fixing member and a second fixing member; the first end of the fiber of the fusion bonding disk and the first of the intelligent module are passed through the first fixing member The connection is provided, and the second end of the fiber-optic disk side is connected to the second end of the smart module through the second fixing member, thereby connecting the fusion-distribution disk and the intelligent module, and the mounting device provided by the embodiment of the present invention is The installation device is independent of the intelligent module and the fusion-distributing disk, and the installation device can realize the connection between the two ends of the intelligent module and the two ends of the fusion-distribution disk. The installation device has small size limitation, wide adaptability and simple operation. Improve efficiency, save resources, and have great advantages in cost.

DRAWINGS

1 is a schematic structural diagram of a communication system according to an embodiment of the present invention;

2 is a schematic structural view of a first disk body connecting portion according to an embodiment of the present invention;

3 is a schematic structural view of a first module connecting portion according to an embodiment of the present invention;

4 is a schematic structural view of a second fixing member according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of installation between a first module connecting portion and an intelligent module according to an embodiment of the present invention; FIG.

6 is a schematic view showing a process of installing a first disk body connecting portion, a second fixing member, and a fusion matching disk according to an embodiment of the present invention;

FIG. 7 is a schematic view showing the installation between the first disk body connecting portion, the second fixing member and the fusion matching disk according to an embodiment of the present invention;

Figure 8 is an enlarged view of A in Figure 1;

FIG. 9 is a schematic structural diagram of a second disk body connecting portion according to an embodiment of the present invention; FIG.

FIG. 10 is a schematic structural diagram of a second module connecting portion according to an embodiment of the present invention; FIG.

FIG. 11 is a schematic view showing the installation of another first fixing member, a fusion matching disk and an intelligent module according to an embodiment of the present invention; FIG.

DESCRIPTION OF REFERENCE NUMERALS: mounting device 1; fusion plate 2; intelligent module 3; optical fiber 4; first fixing member 11; second fixing member 12; fourth positioning plate 13; second fixed adjustment through groove 14; Body connecting portion 21; first module connecting portion 22; second module connecting member 23; fourth intermediate connecting member 24; third inserting plate 25; second positioning buckle 27; second disk connecting portion 31; Connecting portion 32; second disk connecting member 33; third intermediate connecting member 34; second connecting plate 35; third positioning plate 36; second positioning hole 37; first disk connecting member 41; first intermediate connecting member 42; first connecting plate 51; first positioning plate 52; second inserting plate 53; second fixing groove 54, first positioning protrusion 55; first positioning hole 61; first module connecting member 81; second intermediate connection a second positioning plate 83; a first fixed adjustment groove 84; a first insertion plate 91; a first fixing groove 92; and a first positioning buckle 93.

detailed description

The embodiment of the present invention provides a communication system. Please refer to FIG. 1 . The communication system provided by the embodiment of the present invention includes a fusion-distribution disk 2 , an intelligent module 3 , and a mounting device 1 . The fusion-distribution disk 2 and the intelligent module 3 are installed. The device 1 is fastened.

Referring to FIG. 1-4, the mounting device 1 is used for fastening the fusion splicing disc 2 and the smart module 3 together. The mounting device 1 includes a first fixing member 11 and a second fixing member 12; the first fixing member 11 includes a first disk body connecting portion 21 and a first module connecting portion 22 connected to each other; the first disk body connecting portion 21 is disposed to be melted The first end of the optical fiber 2 is connected to the first end; the first module connecting portion 22 is connected to the first end of the smart module 3; the second fixing member 12 includes a second disk connecting portion 31 and a second module connecting portion 32 that are connected to each other. The second body connecting portion 31 is disposed to be coupled to the second end of the fiber-optic disk 2, and the second module connecting portion 32 is disposed to be coupled to the second end of the smart module 3.

Optionally, the first disk body connecting portion 21 and the fusion pad 2 are more convenient for installation, and for the first module connecting portion 22 and the smart module 3 are more convenient for installation, the first disk body connecting portion 21 and the first A module connecting portion 22 is not integrally formed before being mounted, and is detachable, that is, the first disc body connecting portion 21 and the first module connecting portion 22 are detachably and mountable. Since the first disc body connecting portion 21 and the first module connecting portion 22 are detachable, the second disc body connecting portion 31 and the second module connecting portion 32 may be integrally formed.

It should be understood that the side of the fiber of the frit tray 2 refers to the side on which the fiber 4 on the frit tray 2 is located. By using the first fixing member 11 and the second fixing member 12 on the fusion splicing disk 2 and the smart module 3, the fusion splicing disk 2 and the smart module 3 can be fastened together, and the smart module 3 is no longer needed. Customizing to match the size of the melt plate 2 has a great cost advantage. The function of adding the smart module 3 on the basis of the splicing disk 2 is to electronically manage the fiber port resources by using the electronic tag on the smart module 3 to improve the utilization and accuracy of the fiber resources.

Referring to FIGS. 1 and 2, the first disk body connecting portion 21 includes a first disk body connecting member 41 connected to the fiber-optic side end portion of the frit tray 2 and a first intermediate connecting member connected to the first disk body connecting member 41. 42; wherein the first intermediate connecting member 42 includes a first connecting plate 51 and a first positioning plate 52 connected to the first connecting plate 51; the first connecting plate 51 is connected with the first disk connecting member 41; A first positioning hole 61 and a first positioning member matched with the first positioning hole 61 are disposed on the first positioning plate 52. The first positioning plate 52 is fastened to the first module connecting portion 22 by the cooperation of the first positioning member and the first positioning hole 61. First disk connector 41 includes a first elastic clamping member coupled to the first connecting plate 51; the first elastic clamping member is clamped to the side wall of the fiber-optic side end of the melt-distributing disk 2 and is slidable left and right along the side wall; the first elastic clip The fastening member may be an elastic buckle at one end and a fixing plate connected to the elastic buckle at the other end, or a clamp having a strong clamping force at one end and a fixing plate connected to the clip at the other end.

Referring to FIGS. 1, 2 and 3, the first module connecting portion 22 includes a first module connecting member 81 for connection with the smart module 3 and a second intermediate connecting member 82 connected to the first module connecting member 81, first The module connector 81 and the second intermediate connector 82 are integrally formed; the first intermediate connector 42 is coupled to the second intermediate connector 82. The first module connector 81 includes a first board 91 in the horizontal direction; the first board 91 is inserted into the first fixing slot 92 of the end of the smart module 3 and matched with the first board 91; In order to make the positioning of the first board 91 on the smart module 3 more stable, a first positioning buckle 93 is disposed on the front or back surface of the first board 91, and the upper inner side wall or the lower inner side wall of the first fixing slot 92 is provided. The first positioning card slot (not shown) is matched with the first positioning buckle 93. After the first card 91 is inserted into the first fixing slot 92 of the end of the smart module 3, the first positioning buckle 93 is provided. The first positioning buckle 93 itself has a self-locking function, and the first positioning buckle 93 cannot be directly pulled out after being locked, and the first positioning buckle 93 is required to be deformed by a tool to deform the same. The first positioning buckle 93 is separated from the smart module 3.

The second intermediate connecting member 82 includes a second positioning plate 83 connected to the first module connecting member 81. The second positioning plate 83 is provided with at least one first fixed adjusting through groove 84. Alternatively, in order to adapt the intelligent module 3 A plurality of first fixed adjustment slots 84 are disposed on the second positioning plate 83 to meet different requirements of the different sizes of the fusion tray 2; and a first fixing on the second positioning plate 83 during installation. The adjusting through groove 84 coincides with the first positioning hole 61 on the first positioning plate 52, the first positioning member passes through the first fixed adjustment groove 84 and the first positioning hole 61, and the first fixed adjustment groove 84 and the first A positioning hole 61 is fixed.

By using the first disc body connecting portion 21 and the first module connecting portion 22, the fusing tray 2 can be made The first end of the fiber side and the first end of the smart module 3 are fastened together.

Optionally, the first fixed adjustment through groove 84 has an elongated shape to meet the requirements of different sizes of the molten disk 2 . Each of the first fixed adjustment grooves 84 may be disposed laterally or longitudinally, and may adjust the width and height of the different sizes of the fusion plates 2; the adjacent two first fixed adjustment grooves The spacing between the 84 may be different or fixed; the shape of the first fixed adjustment slot 84 may also be the same or similar to the shape of the first positioning hole 61. The positioning member 62 can pass through the first fixed adjustment groove 84 and the first positioning hole 61, and fix the first fixed adjustment groove 84 and the first positioning hole 61; for example, if the cross section of the first positioning hole 61 The shape is circular and the diameter is d. In this case, only the width of the first fixed adjustment groove 84 is also d, which matches the first positioning hole 61. Generally, d is a small value. At this time, there are a plurality of first fixed adjustment grooves 84, and the first fixed adjustment grooves 84 can be arranged in a plurality of rows and columns, whereby the adjustment of the height and width of the different sizes of the welded disks 2 can also be achieved.

Optionally, the first positioning hole 61 is a screw hole, and the first positioning member is a screw member. When installed, the first fixed adjustment groove 84 is located outside the screw hole; it should be understood that when the first elastic clamping structure is clamped on the side wall of the fiber-side end of the fusion-disc 2, due to the first elasticity The clamping structure is connected to the first intermediate connecting member 42 where the screw hole is located, so it should be understood here that the side of the screw hole close to the first elastic clamping structure is the inner side of the screw hole, and the corresponding side is The outside of the screw hole. When installed, the screw member passes through the first fixed adjustment groove 84 and the screw hole, and fixes the first fixed adjustment groove 84 and the screw hole.

Referring to FIGS. 1 and 4, the second module connecting portion 32 includes a second insertion plate 53 in the horizontal direction; the second disk body connecting portion 31 includes a second elastic clamping member and clamps the second insertion plate 53 with the second elastic member. The second elastic clamping member may have a resilient buckle at one end, a fixing plate connected to the elastic buckle at the other end, and a clamp with a strong clamping force at one end of the second elastic clamping member. The other end is a fixing plate connected to the clip; the second module connecting portion 32 is integrally formed; when installed, the second elastic clamping member is clamped at The second inserting plate 53 is inserted into the second fixing groove 54 of the end of the smart module 3 and matched with the second inserting plate 53.

Optionally, in order to enable the second board 53 to be more firmly connected to the smart module 3, a first positioning protrusion 55, an upper inner side wall of the second fixing slot 54 or an upper inner side wall of the second fixing slot 54 may be disposed on the front or back surface of the second board 53. The lower inner side wall is provided with a first positioning groove (not shown) matching the first positioning protrusion 55; the second board 53 is inserted into the second fixing groove 54 of the end of the smart module 3 to be the first positioning The protrusion 55 is embedded in the first positioning groove to fasten the second module connecting portion 32 to the smart module 3; it should be understood that since the first positioning protrusion 55 is embedded in the first positioning groove, the smart There is a certain locking force between the module 3 and the second board 53, but it is not locked. If necessary, the two can be manually separated without tools.

Or, in order to make the positioning of the second board 53 on the smart module 3 more stable, a second positioning groove (not shown) is disposed on the front or back surface of the second board 53, and the second fixing slot 54 is The upper inner side wall or the lower inner side wall is provided with a second positioning protrusion (not shown) that matches the second positioning groove; the second board 53 is inserted into the second fixing slot 54 at the end of the smart module 3, and then The second positioning protrusion is embedded in the second positioning groove, so that the second module connecting portion 32 is fastened to the smart module 3; it should be understood that since the second positioning protrusion is embedded in the second positioning groove, There is a certain locking force between the smart module 3 and the second board 53, but it is not locked. If necessary, the two can be manually separated without tools.

The frit disc 2 fiber can be made to be fastened by the second disc body connecting portion 31 to the second end of the frit disc 2 on the fiber side, and by the second module connecting portion 32 being fastened to the second end of the smart module 3 The second end of the side and the second end of the smart module 3 are fastened together.

By using the mounting device provided by the embodiment of the present invention, the assembly between the intelligent module 3 and the different size specification melting plate 2 can be completed by using the same set of mounting devices, and the intelligent module 3 can be customized according to the size of the melting plate 2 It has wide adaptability and simple operation.

Referring to FIG. 1, since the fixing effect of the first fixing member 11 is better than that of the second fixing member 12, The connection between the fusion platter 2 and the smart module 3 is made stronger. The first fixing member 11 described above can also be used instead of the second fixing member 12, and the first fixing member 11 is unchanged. See Figure 9-11.

Referring to FIGS. 1, 4 and 9, the second disk body connecting portion 31 includes a second disk body connecting member 33 connected to the fiber-optic side end portion of the melt-distributing disk 2 and a third body connected to the second disk body connecting member 33. The intermediate connector 34; wherein the third intermediate connector 34 includes a second connecting plate 35 and a third positioning plate 36 connected to the second connecting plate 35; the second connecting plate 35 is connected to the second disk connecting member 33; In order to enable the third positioning plate 36 and the second module connecting portion 32 to be fastened, a second positioning hole 37 and a second positioning member matching the second positioning hole 37 are disposed on the third positioning plate 36 ( The third positioning plate 36 is fastened to the second module connecting portion 32 by the cooperation of the second positioning member and the second positioning hole 37. The second disc body connecting member 33 includes a second elastic clamping member connected to the second connecting plate 35; the second elastic clamping member is clamped to the side wall of the fiber-optic side end portion of the frit tray 2 and is movable along the side wall Sliding; the second elastic clamping member may have an elastic buckle at one end and a fixing plate connected to the elastic buckle at the other end, and the second elastic clamping member may also have a clamping force at one end and the other end The clip is attached to the fixing plate.

Referring to FIGS. 1, 9, 10 and 11, the second module connection portion 32 includes a second module connector 23 for connection with the smart module 3 and a fourth intermediate connector 24 connected to the second module connector 23. The second module connector 23 and the fourth intermediate connector 24 are integrally formed; the third intermediate connector 34 is coupled to the fourth intermediate connector 24. The second module connector 23 includes a third board 25 in the horizontal direction; the third board 25 is inserted into a third fixing slot disposed at the end of the smart module 3 and matched with the third board 25 (not shown in the figure) Optionally, in order to make the positioning of the third board 25 on the smart module 3 more stable, a second positioning buckle 27 is provided on the front or back side of the third board 25, and the upper side of the third fixing slot The wall or the lower inner side wall is provided with a second positioning card slot (not shown) that matches the second positioning buckle 27; after the third board 25 is inserted into the third fixing slot of the end of the smart module 3, the second The positioning buckle 27 is stuck in the second positioning card slot; the second positioning buckle 27 itself has a self-locking function, and the second positioning buckle 27 cannot be directly pulled out after being locked. The second positioning buckle 27 is separated from the smart module 3 by pressing the second positioning buckle 27 by a tool to deform it.

The fourth intermediate connecting member 24 includes a fourth positioning plate 13 connected to the second module connecting member 23; the fourth positioning plate 13 is provided with at least one second fixed adjusting through groove 14, optionally, in order to adapt the intelligent module 3 A plurality of second fixed adjustment slots 14 are disposed on the fourth positioning plate 13 to meet the different size requirements of the fusion tray 2; and a second fixing on the fourth positioning plate 13 during installation; The adjustment through groove 14 coincides with the second positioning hole 37 on the third positioning plate 36, the second positioning member passes through the second fixed adjustment groove 14 and the second positioning hole 37, and the second fixed adjustment groove 14 and the The two positioning holes 37 are fixed.

Optionally, the second fixed adjustment through groove 14 is elongated to meet the requirements of different sizes of the molten disk 2 . Each of the second fixed adjustment grooves 14 may be disposed laterally or longitudinally, and may adjust the width and height of the different sizes of the fusion plates 2; the adjacent two second fixed adjustment channels The spacing between the 14 may be different or fixed; the shape of the second fixed adjustment slot 14 may also be the same or similar to the shape of the second positioning hole 37. The positioning member can pass through the second fixed adjustment groove 14 and the second positioning hole 37, and fix the second fixed adjustment groove 14 and the second positioning hole 37; for example, if the shape of the cross section of the second positioning hole 37 The diameter is d, and the width of the second fixed adjustment groove 14 is also d, which is matched with the second positioning hole 37. Generally, the diameter d is a small value. At this time, there are a plurality of second fixed adjustment grooves 14 , and the second fixed adjustment grooves 14 can be arranged in a plurality of rows and columns, whereby the adjustment of the height and width of the different sizes of the welded disks 2 can also be achieved.

Optionally, the second positioning hole 37 is a screw hole, and the second positioning member is a screw member. When installed, the second fixed adjustment groove 14 is located outside the screw hole; it should be understood that when the second elastic clamping structure is clamped on the side wall of the fiber-side end of the fusion-disc 2, due to the second elasticity The clamping structure is connected to the third intermediate connecting member 34 where the screw hole is located, so it should be understood here that the screw hole is close to the second elastic clamping structure. One side is the inner side of the screw hole, and the corresponding side is the outer side of the screw hole. During installation, the screw member passes through the second fixed adjustment groove 14 and the screw hole, and fixes the second fixed adjustment groove 14 and the screw hole.

It should be understood that, since most of the side walls of the fiber-optic side of the frit tray 2 are inclined, and the first fixing member 11 is used instead of the second fixing member 12, the first fixing member 11 is unchanged. Therefore, the structure of the second disk body connecting portion 31 in the second fixing member 12 at this time can also be appropriately adjusted to match the characteristic that the side wall of the fiber-optic side end of the melt-distributing disk 2 is inclined.

By the cooperation of the second disk connecting portion 31 and the second module connecting portion 32, the second end of the fiber-optic side of the frit tray 2 and the second end of the smart module 3 are fastened together.

With the mounting device 1 provided above, the assembly between the smart module 3 and the different sizes of the fusion-distribution disk 2 can be realized, and the intelligent module 3 can be customized according to the size of the fusion-distribution disk 2, and the adaptability is wide and the operation is simple. Improve efficiency, save resources, and have great advantages in cost.

In addition, the embodiment of the present invention may further provide a communication system including a fusion-distribution disk 2, an intelligent module 3, and the above-mentioned mounting device 1. The fusion-distributing disk 2 and the intelligent module 3 are fastened by the above-mentioned mounting device 1. .

The above is a further detailed description of the present invention in conjunction with the specific embodiments, and the specific implementation of the present invention is not limited to the description.

Claims

A mounting device includes a first fixing member and a second fixing member; wherein the first fixing member includes a first disk body connecting portion and a first module connecting portion connected to each other; the first disk body connecting portion is disposed The first module connection portion is disposed to be connected to the first end of the smart module;

The second fixing member includes a second disk body connecting portion and a second module connecting portion connected to each other; the second disk body connecting portion is disposed to be connected to the second end of the frit disk fiber side, the The two module connection portion is disposed to be connected to the second end of the smart module.
The mounting device according to claim 1, wherein said first disk body connecting portion includes a first disk body connecting member connected to said melted-disc fiber-side end portion and connected to said first disk body connecting member First intermediate connector;

The first module connection portion includes a first module connector for connecting with the smart module and a second intermediate connector connected to the first module connector;

The first intermediate connector is coupled to the second intermediate connector.
The mounting device of claim 2, wherein the first intermediate connector comprises a connecting plate and a first positioning plate connected to the connecting plate; the first positioning plate is provided with a positioning hole and the positioning a hole-matching positioning member, the connecting plate being connected to the first disk body connecting member;

The second intermediate connecting member includes a second positioning plate connected to the first module connecting member; the second positioning plate is provided with at least one fixed adjusting through slot; when installed, the second positioning plate is installed The fixed adjustment through groove coincides with the positioning hole on the first positioning plate, the positioning member passes through the fixed adjustment through groove and the positioning hole, and the fixed adjustment through groove and the positioning The hole is fixed.
The mounting device according to claim 3, wherein the positioning hole is a screw hole, and the positioning member is a screw member; and the fixing adjustment through groove is located outside the screw hole when installed.
The mounting device according to claim 3, wherein a plurality of fixed adjustment through grooves are provided on the second positioning plate, and the fixed adjustment through grooves are elongated.
The mounting device according to claim 3, wherein said first body connector includes a first elastic clamping member coupled to said connecting plate; said first modular connector includes a first blade in a horizontal direction The first elastic clamping member is clamped to a side wall of the melt-disc fiber side end and is along the side The wall slides, and the first card is inserted into the first fixing slot of the smart module end that is matched with the first card.
The mounting device of claim 6 , wherein a positioning buckle is disposed on the front or back side of the first board, and the upper inner side wall or the lower inner side wall of the first fixing slot is provided with the positioning buckle Matching positioning card slot;

After the first card is inserted into the first fixing slot of the end of the smart module, the positioning buckle is inserted into the positioning card slot.
The mounting device according to any one of claims 1 to 7, wherein the second module connecting portion includes a second insertion plate in a horizontal direction; the second disk body connecting portion includes a second elastic clamping member and a vertical plate connected to the second elastic clamping member; the second elastic clamping member is clamped to a side wall of the side end of the fusion splicing fiber, the second insertion plate Inserting into the second fixing slot of the smart module end that matches the second card.
The mounting device according to claim 8, wherein a first positioning protrusion is disposed on a front side or a back side of the second board, and an upper inner side wall or a lower inner side wall of the second fixing slot is provided with the first a first positioning groove matched by a positioning protrusion; the second insertion plate is inserted into the second fixing groove of the end of the smart module, and the first positioning protrusion is embedded in the first positioning groove in;

Or a second positioning groove is disposed on the front or back surface of the second board, and the upper inner side wall or the lower inner side wall of the second fixing slot is provided with a second positioning convex that matches the second positioning groove. The second insertion plate is inserted into the second fixing groove of the end of the smart module, and the second positioning protrusion is embedded in the second positioning groove.
The mounting device according to any one of claims 1 to 9, wherein the second disk body connecting portion includes a second disk body connector connected to the melted-disc fiber-side end portion and the second a third intermediate connector to which the disk connector is connected;

The second module connection portion includes a second module connector for connecting to the second end of the smart module and a fourth intermediate connector connected to the second module connector;

The third intermediate connector is coupled to the fourth intermediate connector.
A communication system comprising a fusion platter, an intelligent module, and any one of claims 1-10 In the mounting device described, the fusion splicing disk and the smart module are fastened by the mounting device.