CN117041419A - Dynamic real-time monitoring method and device for communication link - Google Patents

Abstract

The application discloses a dynamic real-time monitoring method of a communication link, which comprises the following steps: s1: when dialing is successful, establishing a plurality of communication links; s2: sending a detection packet stream to acquire parameter information of each link; s3: calculating the communication transmission quality of the wireless link; s4: determining whether a plurality of links comprise a restarting link according to the link parameter information; the communication link dynamic real-time monitoring device is suitable for the above monitoring method, and comprises a central processing module, a memory module, a power module, an external display module, an input/input interface and a communication module. The application can detect the communication link, restart the communication link and switch the communication link to other communication links when the parameter information of the communication link is lower than the preset condition, thereby improving the transmission stability of the transmission signals of the communication link.

Description

Dynamic real-time monitoring method and device for communication link

Technical Field

The application relates to the technical field of communication, in particular to a dynamic real-time monitoring method and device for a communication link.

Background

The physical channel between two nodes in the network is called a communication link, the transmission medium of the communication link mainly comprises twisted pair, optical fiber and microwave, the link is a section of physical line from one node to the adjacent node, no other switching node exists in the middle, the node comprises a data element and a plurality of branches pointing to other subtrees, along with the continuous development of the mobile communication network technology, the terminal equipment has more and more functions, and the user uses the terminal equipment to dial up and surf the internet, thereby being more and more widely applied.

When dial-up networking is performed, a single link is generally adopted to perform dial-up networking, and in the process of networking, the link needs to be monitored, namely the downlink signal strength of the single link is detected, when the downlink signal strength of the single link is determined to be smaller than a preset value, the link quality is determined to be poor, when the transmission signal of the communication link is poor, a corresponding replacement communication link is absent, and when the communication link is in a use state, the transmission signal quality of the communication link cannot be improved or improved, so that a dynamic real-time monitoring method and a device for the communication link need to be designed to solve the problems.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the application and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the application and in the title of the application, which may not be used to limit the scope of the application.

The present application has been made in view of the above-mentioned problems with the conventional method and apparatus for dynamic real-time monitoring of a communication link.

Therefore, an object of the present application is to provide a method and an apparatus for dynamically and real-time monitoring a communication link, which are suitable for solving the problem that when a communication link is poor in transmission signal, a corresponding alternative communication link is lacking, and when the communication link is in a use state, the quality of the transmission signal of the communication link cannot be improved or improved.

In order to solve the technical problems, the application provides the following technical scheme: a method for dynamic real-time monitoring of a communication link, the method comprising the steps of:

s1: when dialing is successful, establishing a plurality of communication links;

s2: sending a detection packet stream to acquire parameter information of each link;

s3: calculating the communication transmission quality of the wireless link;

s4: determining whether a plurality of links comprise a restarting link according to the link parameter information;

s5, determining whether a restarting link has a restarting opportunity or not, and simultaneously determining whether more than two links have the restarting opportunity or not;

s6, restarting another one or more standby links in the links according to a preset rule in restarting time;

and S7, switching from the current communication link to other links except the current communication link when more than two parameters of the parameter information corresponding to the current communication link are determined to not meet the preset conditions.

The utility model provides a communication link developments real-time supervision device, the monitoring devices is applicable to above monitoring methods, and the monitoring devices includes central processing module, memory module, power module and external display module, input/input interface and communication module, memory module, communication module and external display module all are connected with central processing module both way, and power module and central processing module electric connection, input/output interface and central processing module both way junction, communication module and central processing module are the both way junction yet.

As a preferred solution of the communication link dynamic real-time monitoring device of the present application, the preferred solution is that: the central processing module includes:

the main body unit comprises a terminal processing shell, a shell cover matched with the terminal processing shell and a central processing unit arranged in the terminal processing shell, wherein a plurality of groups of uniformly distributed communication output interfaces are fixedly arranged on one side of the shell;

the wiring locking unit comprises a regulating box fixedly installed on one side of a terminal processing shell and a driving motor fixedly installed at one end of the regulating box, wherein an output shaft of the driving motor is inserted into the regulating box to be fixedly connected with a rotating rod, a thread bush with symmetrical positions is connected to the rotating rod in a threaded mode, each thread bush is fixedly connected with a corresponding locating protrusion through a corresponding connecting rod, the locating protrusion penetrates through the side wall of a communication output interface to be arranged, and a strip-shaped opening matched with the connecting rod is formed in the regulating box.

As a preferred solution of the communication link dynamic real-time monitoring device of the present application, the preferred solution is that: the central processing module further comprises a dustproof plugging unit, each dustproof plugging unit comprises a plurality of groups of fixed lugs fixedly installed at the center of the upper side wall of the corresponding communication output interface, each fixed lug is fixedly connected with a first telescopic column corresponding to the position of each fixed lug, one end of each first telescopic column, which is far away from the corresponding fixed lug, is fixedly connected with an extrusion block opposite to the connecting rod, one side, which is far away from the terminal processing shell, of each extrusion block is fixedly connected with a rope hanging rod, the communication output interface is slidably connected with a dustproof plate with symmetrical positions, each dustproof plate is connected with the corresponding rope hanging rod through a pull rope, the two sides of the communication output interface are fixedly provided with a first guide wheel and a second guide wheel which are matched with the pull rope, one end of the dustproof plate is far away from the corresponding communication output interface, each fixed plate is fixedly connected with a second telescopic column, a reset spring is sleeved on each second telescopic column, and two ends of each reset spring are respectively fixedly connected with the corresponding fixed plate and the side wall of the communication output interface.

As a preferred solution of the communication link dynamic real-time monitoring device of the present application, the preferred solution is that: the first telescopic column is sleeved with an extrusion spring, and the extrusion spring is positioned between the extrusion block and the fixed lug.

As a preferred solution of the communication link dynamic real-time monitoring device of the present application, the preferred solution is that: the storage module comprises a storage unit, the storage unit comprises a storage shell and a mounting seat fixedly mounted in the storage shell, a storage body is fixedly mounted on the mounting seat, a water storage box is fixedly mounted between the lower side wall of the mounting seat and the inner wall of the lower side of the storage shell, a cooling pipe is paved on the mounting seat and is communicated with the water storage box through a water inlet pipe, a miniature water pump communicated with the water inlet pipe is fixedly mounted on the mounting seat, and one end of the cooling pipe, far away from the miniature water pump, is communicated with the water storage box through a one-way valve.

As a preferred solution of the communication link dynamic real-time monitoring device of the present application, the preferred solution is that: the cooling pipes are arranged into multi-stage bending type, and a fixing sleeve matched with the cooling pipes is fixedly arranged on the mounting seat.

As a preferred solution of the communication link dynamic real-time monitoring device of the present application, the preferred solution is that: and the shell cover is provided with a wiring indicator lamp corresponding to the corresponding communication output interface.

As a preferred solution of the communication link dynamic real-time monitoring device of the present application, the preferred solution is that: and a plurality of groups of miniature fans with symmetrical positions are embedded and installed on one side, far away from the communication output interface, of the terminal processing shell, and a plurality of groups of heat dissipation ports which are uniformly distributed are formed on two sides of the terminal processing shell.

As a preferred solution of the communication link dynamic real-time monitoring device of the present application, the preferred solution is that: the terminal treatment shell is fixedly connected with the shell cover through a plurality of groups of uniformly distributed fastening screws, and a sealing ring with uniform thickness is arranged at the position, which abuts against the shell cover, of the terminal treatment shell.

The application has the beneficial effects that: the communication link can be detected, when the parameter information of the communication link is lower than the preset condition, the communication link can be restarted and is switched to other communication links, so that the transmission stability of the transmission signals of the communication link is improved;

the control wiring is connected into the corresponding communication output interface, the output shaft of the driving motor is controlled to rotate positively, the rotating rod fixedly connected with the control wiring rotates along with the control wiring, the threaded sleeve in threaded connection with the rotating rod drives the corresponding locating boss to be inserted into the communication output interface to be abutted against the wiring through the connecting rod, and even if the wiring is involved, the wiring can still keep good contact with the communication output interface, so that the wiring stability of the central processing module and external equipment is improved;

the connecting rod extrudes the extrusion piece, and fixed mounting hangs rope pole on the extrusion piece and passes through stay cord pulling dust guard, and the dust guard opens communication output interface thereupon, guarantees that communication output interface normally connects, and when not wiring, driving motor output shaft reversal, the connecting rod is kept away from each other thereupon, and originally compressed extrusion spring and by tensile reset spring, extrusion piece are pushed by extrusion spring and are moved towards the one side of keeping away from fixed ear, and reset spring drives the dust guard and carries out the shutoff to communication output interface thereupon, effectively separates external dust to get into in the communication output interface.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

fig. 1 is a schematic overall flow chart of a communication link dynamic real-time monitoring method according to the present application;

fig. 2 is a schematic diagram of an overall frame structure of a communication link dynamic real-time monitoring device according to the present application;

fig. 3 is a schematic structural diagram of a main unit of a communication link dynamic real-time monitoring device according to the present application;

fig. 4 is a schematic diagram of the internal structure of a terminal processing housing of the communication link dynamic real-time monitoring device according to the present application;

fig. 5 is a schematic diagram of a connection locking unit of the communication link dynamic real-time monitoring device according to the present application;

FIG. 6 is a schematic diagram of a memory cell structure of a communication link dynamic real-time monitoring device according to the present application;

fig. 7 is a schematic diagram of a dustproof plugging unit structure of a communication link dynamic real-time monitoring device according to the present application;

fig. 8 is a schematic diagram illustrating cooperation between a dust-proof plate and a return spring of a communication link dynamic real-time monitoring device according to the present application.

Description of the drawings: 100 main body units, 101 terminal processing shells, 102 shell covers, 103 central processing units, 104 heat dissipation ports, 105 micro fans, 106 communication output interfaces, 107 wiring indicator lamps, 200 wiring anti-loosening units, 201 adjusting boxes, 202 driving motors, 203 rotating rods, 204 threaded sleeves, 205 connecting rods, 206 positioning bulges, 300 storage units, 301 storage shells, 302 installation seats, 303 storage bodies, 304 water storage boxes, 305 water inlet pipes, 306 cooling pipes, 307 micro water pumps, 308 one-way valves, 309 fixed sleeves, 400 dustproof plugging units, 401 dustproof plates, 402 fixed lugs, 403 first telescopic columns, 404 extrusion blocks, 405 extrusion springs, 406 hanging rope rods, 407 pull ropes, 408 first guide wheels, 409 second guide wheels, 410 fixed plates, 411 second telescopic columns and 412 reset springs.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will become more readily apparent, a more particular description of the application will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present application is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the application. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Further, in describing the embodiments of the present application in detail, the cross-sectional view of the device structure is not partially enlarged to a general scale for convenience of description, and the schematic is only an example, which should not limit the scope of protection of the present application. In addition, the three-dimensional dimensions of length, width and depth should be included in actual fabrication.

Referring to fig. 1-8, for one embodiment of the present application, a method for dynamically monitoring a communication link in real time is provided, the monitoring method comprising the steps of:

s1: when dialing is successful, establishing a plurality of communication links;

s2: sending a detection packet stream to acquire parameter information of each link;

s3: calculating the communication transmission quality of the wireless link;

s4: determining whether a plurality of links comprise a restarting link according to the link parameter information;

s5, determining whether a restarting link has a restarting opportunity or not, and simultaneously determining whether more than two links have the restarting opportunity or not;

s6, restarting another one or more standby links in the links according to a preset rule in restarting time;

s7, when more than two parameters of parameter information corresponding to the current communication link are determined to not meet the preset condition, switching from the current communication link to other links except the current communication link; the communication link can be detected, when the parameter information of the communication link is lower than the preset condition, the communication link can be restarted and is switched to other communication links, and the transmission stability of the transmission signals of the communication link is improved.

The communication link dynamic real-time monitoring device is suitable for the above monitoring method, and comprises a central processing module, a memory module, a power module, an external display module, an input/input interface and a communication module, wherein the memory module, the communication module and the external display module are all in bidirectional connection with the central processing module, the power module is electrically connected with the central processing module, the input/output interface is in bidirectional connection with the central processing module, and the communication module is also in bidirectional connection with the central processing module.

The central processing module comprises: the main body unit 100, the wire anti-loosening unit 200, and the dust blocking unit 400.

The main body unit 100 comprises a terminal processing shell 101, a shell cover 102 matched with the terminal processing shell 101 and a central processing unit 103 installed in the terminal processing shell 101, wherein the terminal processing shell 101 is fixedly connected with the shell cover 102 through a plurality of groups of uniformly distributed fastening screws, a layer of sealing ring with uniform thickness is arranged at the position, which is abutted against the shell cover 102, of the terminal processing shell 101, the fastening screws are arranged, the shell cover 102 and the terminal processing shell 101 can be conveniently detached, electric appliances in the terminal processing shell are conveniently overhauled, a plurality of groups of uniformly distributed communication output interfaces 106 are fixedly installed on one side of the shell, wiring indicator lamps 107 corresponding to the corresponding communication output interfaces 106 are installed on the shell cover 102, the wiring indicator lamps 107 can monitor the normal wiring condition of each communication output interface 106, the terminal processing shell is commonly applied in the communication field, the well-established technology is not detailed in the working principle, a plurality of groups of uniformly distributed micro fans 105 are installed on one side, which is far away from the communication output interfaces 106, of the terminal processing shell 101, a plurality of groups of uniformly distributed micro fans 104 are arranged on two sides of the terminal processing shell 101, the micro fans 105 are matched with the ports 104, the heat dissipation devices on two sides of the terminal processing shell 101 can be accelerated, and the heat dissipation defect that the heat dissipation of the terminal processing shell 101 is effectively exchanged in the inside the central processing shell 101 is shortened, and the normal service life of the terminal processing device is solved;

the wiring anti-loosening unit 200 comprises an adjusting box 201 fixedly installed on one side of the terminal processing shell 101 and a driving motor 202 fixedly installed at one end of the adjusting box 201, an output shaft of the driving motor 202 is inserted into the adjusting box 201 and fixedly connected with a rotating rod 203, the rotating rod 203 is in threaded connection with threaded sleeves 204 with symmetrical positions, each threaded sleeve 204 is fixedly connected with a corresponding locating protrusion 206 through a corresponding connecting rod 205, the locating protrusions 206 penetrate through the side wall of the communication output interface 106, and strip-shaped openings matched with the connecting rod 205 are formed in the adjusting box 201.

The dustproof plugging unit 400 comprises a plurality of groups of fixed lugs 402 fixedly installed at the center of the upper side wall of the corresponding communication output interface 106, the two sides of each fixed lug 402 are fixedly connected with first telescopic columns 403 corresponding to the positions, one ends of the first telescopic columns 403, which are far away from the fixed lugs 402, are fixedly connected with extrusion blocks 404 opposite to the connecting rods 205, extrusion springs 405 are sleeved on the first telescopic columns 403, the extrusion springs 405 are located between the extrusion blocks 404 and the fixed lugs 402, through the arrangement of the extrusion springs 405, reset springs 412 can be assisted to drive the dustproof plates 401 to plug the communication output interface 106, one sides, which are far away from the terminal processing shell 101, of the extrusion blocks 404 are fixedly connected with hanging rope rods 406, the opening of the communication output interface 106 is slidably connected with dustproof plates 401, each dustproof plate 401 is connected with the hanging rope rods 406 through pull ropes 407, first guide wheels 408 and second guide wheels 409 matched with the pull ropes 407 are fixedly installed on two sides of the communication output interface 106, one ends of the dustproof plates 401 are far away from the communication output interface 106, the fixed plates 410 are fixedly connected with the second guide wheels 411, the fixed plates 410 are fixedly connected with the side walls of the communication output interface 106, the reset springs 412 are fixedly connected with the second telescopic columns 412, and the reset springs 412 are fixedly connected with the two ends of the communication output interface 106, and the reset springs 412 are fixedly connected with the communication output interfaces 106.

The memory module comprises a memory housing 301 and a mounting seat 302 fixedly mounted in the memory housing 301, a memory body 303 is fixedly mounted on the mounting seat 302, a water storage box 304 is fixedly mounted between the lower side wall of the mounting seat 302 and the inner wall of the lower side of the memory housing 301, a cooling pipe 306 is paved on the mounting seat 302, the cooling pipe 306 is arranged into a multi-stage bending type, a fixing sleeve 309 matched with the cooling pipe 306 is fixedly mounted on the mounting seat 302, the fixing sleeve 309 can fix the cooling pipe 306, the cooling pipe 306 is communicated with the water storage box 304 through a water inlet pipe 305, a micro water pump 307 communicated with the water inlet pipe 305 is fixedly mounted on the mounting seat 302, one end of the cooling pipe 306, far away from the micro water pump 307, is communicated with the water storage box 304 through a one-way valve 308, and when the temperature in the memory housing 301 rises due to long-term overheat of the memory body 303, the cooling water in the micro water pump 307 can be pumped into the cooling pipe 306, and the effect of cooling the memory body 303 is achieved.

In the use process, the control wiring is connected into the corresponding communication output interface 106, the output shaft of the driving motor 202 is controlled to rotate positively, the rotating rod 203 fixedly connected with the control wiring rotates along with the output shaft, the threaded sleeve 204 in threaded connection with the rotating rod 203 drives the corresponding positioning protrusion 206 to be inserted into the communication output interface 106 through the connecting rod 203 to be abutted against the wiring, in the process, the connecting rod 205 extrudes the extrusion block 404, the dust-proof plate 401 is pulled by the rope hanging rod 406 fixedly arranged on the extrusion block 404 through the pull rope 407, the communication output interface 106 is opened by the dust-proof plate 401, normal wiring of the communication output interface 106 is ensured, even if the wiring is pulled, the wiring still can keep good contact with the communication output interface 106, further, the wiring stability of the central processing module 103 and external equipment is improved, the output shaft of the driving motor 202 rotates reversely, the connecting rod 205 is mutually far away, the originally compressed extrusion spring 405 and the stretched reset spring 412 are pushed by the extrusion block 404 to move towards the side far away from the fixed lug 402, and the dust-proof plate 401 is driven by the reset spring 412 to plug the communication output interface 106, and external dust is effectively prevented from entering the communication output interface 106;

when the memory main body 303 in the memory unit 300 is in a working state for a long time, and the temperature in the memory shell 104 is accumulated in a large amount, the micro water pump 307 is started at this time, water in the water storage box 304 enters the cooling pipe 306 through the water inlet pipe 305 and flows back into the water storage box 304 again through the one-way valve 308, and in the process, the cooling pipe 306 filled with water continuously absorbs heat around the memory main body 303, so that the defect that the service life of the memory main body 303 is shortened due to the fact that the memory main body 303 works in an overheated environment for a long time is effectively overcome.

It should be noted that the above embodiments are only for illustrating the technical solution of the present application and not for limiting the same, and although the present application has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present application may be modified or substituted without departing from the spirit and scope of the technical solution of the present application, which is intended to be covered in the scope of the claims of the present application.

Claims (10)

1. A method for dynamically monitoring a communication link in real time, the method comprising the steps of:

s1: when dialing is successful, establishing a plurality of communication links;

s2: sending a detection packet stream to acquire parameter information of each link;

s3: calculating the communication transmission quality of the wireless link;

s4: determining whether a plurality of links comprise a restarting link according to the link parameter information;

s5: determining whether a restart link has a restart opportunity, and simultaneously determining whether more than two links have restart opportunities;

s6, restarting another one or more standby links in the links according to a preset rule in restarting time;

and S7, switching from the current communication link to other links except the current communication link when more than two parameters of the parameter information corresponding to the current communication link are determined to not meet the preset conditions.

2. The communication link dynamic real-time monitoring device is characterized by being suitable for the monitoring method, and comprises a central processing module, a memory module, a power module, an external display module, an input/input interface and a communication module, wherein the memory module, the communication module and the external display module are all in bidirectional connection with the central processing module, the power module is electrically connected with the central processing module, the input/output interface is in bidirectional connection with the central processing module, and the communication module is also in bidirectional connection with the central processing module.

3. A communication link dynamic real-time monitoring device according to claim 2, wherein: the central processing module includes:

the main body unit (100) comprises a terminal processing shell (101), a shell cover (102) matched with the terminal processing shell (101) and a central processing unit (103) arranged in the terminal processing shell (101), wherein a plurality of groups of uniformly distributed communication output interfaces (106) are fixedly arranged on one side of the shell;

the utility model provides a wiring locking unit (200), it includes fixed mounting at terminal processing housing (101) one side regulation box (201) and fixed mounting at driving motor (202) of regulation box (201) one end, driving motor (202) output shaft inserts regulation box (201) fixedly connected with bull stick (203), threaded connection has thread bush (204) of position symmetry on bull stick (203), every thread bush (204) all pass through corresponding connecting rod (205) fixedly connected with location arch (206), and location arch (206) run through communication output interface (106) lateral wall setting, and offered the strip type opening that matches with connecting rod (205) on regulation box (201).

4. A communication link dynamic real time monitoring device according to claim 3, wherein: the central processing module further comprises a dustproof plugging unit (400) which comprises a plurality of groups of fixed lugs (402) fixedly arranged at the center of the upper side wall of the corresponding communication output interface (106), each fixed lug (402) is fixedly connected with a first telescopic column (403) corresponding to the position at two sides, one end of the first telescopic column (403) away from the fixed lug (402) is fixedly connected with an extrusion block (404) opposite to the connecting rod (205), one side of the extrusion block (404) away from the terminal processing shell (101) is fixedly connected with a hanging rope rod (406), the opening of the communication output interface (106) is slidably connected with dust-proof plates (401) with symmetrical positions, each dust-proof plate (401) is connected with a rope hanging rod (406) through a pull rope (407), a first guide wheel (408) and a second guide wheel (409) which are matched with the pull rope (407) are fixedly arranged on two sides of the communication output interface (106), one end, far away from the communication output interface (106), of each dust-proof plate (401) is fixedly connected with a fixed plate (410), the fixed plates (410) are fixedly connected with a second telescopic column (411) with the side wall of the communication output interface (106), a reset spring (412) is sleeved on the second telescopic column (411), and two ends of the return spring (412) are fixedly connected with the fixed plate (410) and the side wall of the communication output interface (106) respectively.

5. The communication link dynamic real-time monitoring device according to claim 4, wherein: the first telescopic column (403) is sleeved with a pressing spring (405), and the pressing spring (405) is located between the pressing block (404) and the fixing lug (402).

6. A communication link dynamic real-time monitoring device according to claim 2, wherein: the memory module comprises a memory unit (300), the memory module comprises a memory shell (301) and a mounting seat (302) fixedly arranged in the memory shell (301), a memory body (303) is fixedly arranged on the mounting seat (302), a water storage box (304) is fixedly arranged between the lower side wall of the mounting seat (302) and the inner wall of the lower side of the memory shell (301), a cooling pipe (306) is paved on the mounting seat (302), the cooling pipe (306) is communicated with the water storage box (304) through a water inlet pipe (305), a miniature water pump (307) communicated with the water inlet pipe (305) is fixedly arranged on the mounting seat (302), and one end, far away from the miniature water pump (307), of the cooling pipe (306) is communicated with the water storage box (304) through a one-way valve (308).

7. The communication link dynamic real-time monitoring device according to claim 6, wherein: the cooling pipes (306) are arranged into multi-stage bending type, and a fixing sleeve (309) matched with the cooling pipes (306) is fixedly arranged on the mounting seat (302).

8. A communication link dynamic real time monitoring device according to claim 3, wherein: and a wiring indicator lamp (107) corresponding to the corresponding communication output interface (106) is arranged on the shell cover (102).

9. A communication link dynamic real time monitoring device according to claim 3, wherein: a plurality of groups of miniature fans (105) with symmetrical positions are embedded and installed on one side, far away from a communication output interface (106), of the terminal processing shell (101), and a plurality of groups of heat dissipation ports (104) which are uniformly distributed are formed in two sides of the terminal processing shell (101).

10. A communication link dynamic real time monitoring device according to claim 3, wherein: the terminal treatment shell (101) is fixedly connected with the shell cover (102) through a plurality of groups of uniformly distributed fastening screws, and a sealing ring with uniform thickness is arranged at the position, which abuts against the shell cover (102), of the terminal treatment shell (101).