CN114117701A - Computer network comprehensive wiring implementing method - Google Patents

Abstract

The invention relates to the technical field of computer networks, and discloses a computer network comprehensive wiring implementation method, which comprises a communication automation system, an office automation system and a computer network system, supports voice application, data transmission and image movie and television, and finally can support comprehensive application, and as wires and transmission media selected by the comprehensive voice and data transmission network wiring system are various, the wiring system also comprises: the system comprises a working area subsystem, a horizontal trunk subsystem, an equipment management subsystem, a building group vertical trunk subsystem and a structural wiring system label setting. The implementation method of the computer network comprehensive wiring uses cables which can meet 155Mbps through the cables used by the computer network through the subsystem of the equipment management room so as to ensure the high-speed information transmission of the computer network in the future, including the transmission requirement of multimedia information; an interface is left between the computer network and the high-speed telecommunication network to facilitate future high-speed remote computer communication.

Description

Computer network comprehensive wiring implementing method

Technical Field

The invention relates to the technical field of computer networks, in particular to a computer network comprehensive wiring implementation method.

Background

At the present stage, the information-oriented era is a main trend of current social development, and is specifically represented by enhancing data information propagation capacity, further optimizing a data processing mode and the like, and the information-oriented era provides a clear target for development of social productivity; the computer is the representative of the information age, the network structure of the computer influences the exertion of the functions of the computer, and the computer integrates and optimizes various information resources to become the fundamental target of computer network management.

The prior art has the following defects and shortcomings: at present, the development of computer networks is troubled by the problem of comprehensive wiring, so that the computer power is difficult to realize effective exertion, and therefore, the strengthening of the discussion on the implementation of the comprehensive wiring of the computer networks has practical significance.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a computer network comprehensive wiring implementation method, which can solve the problem of the existing computer network comprehensive wiring implementation method; the device can provide convenience for future application of users, protect the investment of the users, ensure that the users invest less cost and effectively solve the problem by transferring to a higher-level application range by arranging the optical cable wiring system, the overall system design topological structure and the equipment management subsystem and wiring according to the comprehensive wiring system.

In order to achieve the purpose of the computer network comprehensive wiring implementation method, the invention provides the following technical scheme: the computer network integrated wiring implementation method comprises a communication automation system, an office automation system and a computer network system, supports voice application, data transmission and image and video, and finally can support integrated application, and the wiring system also comprises: the system comprises a working area subsystem, a horizontal trunk subsystem, an equipment management subsystem, a building group vertical trunk subsystem and a structural wiring system label setting.

Preferably, the optical cable wiring system further comprises:

optical cable wiring system: splitting a horizontal trunk subsystem and a vertical trunk subsystem in the cable run, which use different types of cables, respectively, the horizontal trunk subsystem: 62.5/125 μm multimode fiber optic cable, mostly indoor fiber optic cable, vertical trunk subsystem: the 10/125 mu m single mode optical cable of 62.5/125 mu m multimode optical cable and the comprehensive wiring system standard are open system standards which can be widely applied, therefore, wiring according to the comprehensive wiring system can provide convenience for future application of users, protect investment of the users, and enable the users to transfer to a higher-level application range with less investment.

Preferably, the topological structure of the overall system design is a star structure, and the topological structure is established as a network center, a residential building wiring room, a household junction box and a user side:

from the overall structure, the structured wiring system consists of a building group trunk line, a horizontal area, a working area and an equipment management room, wherein a computer mainframe room is respectively arranged in each cell to perform centralized management on trunk line cables of residential buildings, a wiring room is arranged in each residential building and is used for managing horizontal area cable application of each residential building, and a household wiring junction box is arranged in each household and is used for managing working area cables in the household;

the set information point is limited to computer communication network communication data transmission, a star-shaped topological structure is adopted, the scheme adopts AMP fast-connection distribution frame awakening distribution management, the AMP fast-connection distribution frame awakening distribution management is linked to a working area end by using ultra-five twisted pairs to realize end-to-end management, 6-core multimode outdoor optical fibers are adopted among building groups, the building group is suitable for application occasions of underground pipelines and direct installation, and steel armor provides corrosion protection and lightning protection limit protection for the optical fibers.

Preferably, the workspace subsystem comprises:

in the design consideration of the wiring system, the larger the number density of the user areas is, the more flexible the increase, decrease and migration of the terminating equipment in the future, and according to the EIA/TIA570A standard, each user areｃA needs to have at least two information sockets, one of which must be ｃA 5-type socket for datｃA communication, and the approved information ports are respectively ｃA 3-type information module, ｃA 5-type information module, an STP- ｃA information port and ｃA multimode optical fiber information socket.

Preferably, the horizontal trunk subsystem comprises:

cable and length: according to star network topology structure and subsystem requirement design of corresponding working area, each user workstation has 1, 4 pairs of ultra five unshielded twisted pair wires connected to modular distribution frame user end of main distribution frame, each can be used as basic voice, data network and other various communication applications, and longest length does not exceed 90m upper limit of 90m of EIA/TIA570A, thus can guarantee development and application of various and rapid networks in the future, meet communication transmission requirement of non-stop application, length of horizontal cable used, from distribution frame to user information point, including the following parts: the inner section of the machine room: the wire casing export 3m to the rack in 3m + on the ceiling under the floor, machine room information point department smallpox: dividing the cable into pieces according to the dense area of the information points, estimating the average cable length of 25m according to the distance, and arranging the ceiling socket end at the information points: 6m, calculate the required cable total length of all information points according to above, still need increase 25% because of the honor length of cable route bending, construction loss, walk the line mode: the trunk line groove adopts the galvanized iron groove, and the spool from the trunk line groove to each room adopts the PVC pipe, about the wiring mode in the room, on the wall part: the method of applying PVC line pipe is suggested, and at the point of information, the bottom box and panel are installed uniformly at the place where the wall surface is 30cm away from the ground.

Preferably, the device management subsystem includes:

the device management inter-role is; the device is used as an external information access and carries out data and electric signal transmission with the outside; the PDS system cable, which is used in central management of PABX voice system and computer network, but the computer main room of the equipment room, according to the requirements of users, does not provide PABX voice system, the setting mode of the subsystem and management subsystem of the equipment room are very similar, on the other hand, the equipment room is terminated and managed, comprising: the horizontal subsystem cable and the data cable of the network equipment in each working area are designed in detail as follows, a 1.6m standard 19in cabinet, 600mmx600mm is used for installing network equipment such as a distribution frame Swich and the like: the distribution frame adopts a quick-connection 24-port distribution frame; the horizontal area cable is terminated on the quick-connection type 24-port accessory rack; the horizontal area cable is terminated behind the quick-connect distribution frame, the horizontal data cable is jumped to the network equipment by using a jumper wire, and the jumper wire management is carried out by using a 1.75-inch wire management frame.

Preferably, the building group vertical trunk line subsystem comprises:

the area for implementing wiring engineering is every residential building in the district, belonging to a park wiring system, a district comprehensive building is provided with a main wiring room, each building is provided with a wiring room, the main wiring room is connected with the wiring room through a 4-core optical fiber, and the optical fiber wiring mode adopts wiring along a water ditch beside the building or digging earthwork buried wiring.

Preferably, the structured cabling system label setting comprises:

to fully develop the management function of the system for structured wiring, the system must be provided with a set of perfect labels and subsystem identification standards, and the following requirements are made according to the management standards of the telecommunication channel structure of the EIA/TIA606 commercial building: the labels identifying the two terminals of the same cable should be of the same color, with the cross-connection typically being made outside the connection of the two blind colored areas.

Compared with the prior art, the invention provides a computer network comprehensive wiring implementation method, which has the following beneficial effects:

1. the method for implementing comprehensive wiring of computer network is characterized by that it adopts optical cable wiring system, and divides horizontal trunk subsystem and vertical trunk subsystem in the optical cable wiring, and they respectively use different types of optical cables, and the horizontal trunk subsystem: 62.5/125 μm multimode fiber optic cable, mostly indoor fiber optic cable, vertical trunk subsystem: the 10/125 mu m single-mode optical cable of the 62.5/125 mu m multimode optical cable and the comprehensive wiring system standard are open system standards which can be widely applied, so that wiring according to the comprehensive wiring system can provide convenience for future application of users, protect investment of the users, and enable the users to transfer to a higher-level application range with less investment;

2. the computer network comprehensive wiring implementation method supports the application of various networks at present and in the future by setting the overall design topological structure of the system and adopting a star structure, and can realize the networks with various logic topological structures through jumpers and different network equipment;

3. the computer network comprehensive wiring implementation method is characterized in that through the arrangement of the equipment management room subsystem, cables which can meet 155Mbps are used through cables used by the computer network, so that high-speed information transmission of the computer network in future is ensured, including the transmission requirement of multimedia information; an interface is left between the computer network and the high-speed telecommunication network to facilitate future high-speed remote computer communication.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The computer network integrated wiring implementation method comprises a communication automation system, an office automation system and a computer network system, supports voice application, data transmission and image and video, and finally can support integrated application, and the wiring system also comprises: the system comprises a working area subsystem, a horizontal trunk subsystem, an equipment management subsystem, a building group vertical trunk subsystem and a structural wiring system label setting.

Still include the cable wiring system:

optical cable wiring system: splitting a horizontal trunk subsystem and a vertical trunk subsystem in the cable run, which use different types of cables, respectively, the horizontal trunk subsystem: 62.5/125 μm multimode fiber optic cable, mostly indoor fiber optic cable, vertical trunk subsystem: the 10/125 mu m single mode optical cable of 62.5/125 mu m multimode optical cable and the comprehensive wiring system standard are open system standards which can be widely applied, therefore, wiring according to the comprehensive wiring system can provide convenience for future application of users, protect investment of the users, and enable the users to transfer to a higher-level application range with less investment.

Still include the cable wiring system:

optical cable wiring system: splitting a horizontal trunk subsystem and a vertical trunk subsystem in the cable run, which use different types of cables, respectively, the horizontal trunk subsystem: 62.5/125 μm multimode fiber optic cable, mostly indoor fiber optic cable, vertical trunk subsystem: the 10/125 mu m single mode optical cable of 62.5/125 mu m multimode optical cable and the comprehensive wiring system standard are open system standards which can be widely applied, therefore, wiring according to the comprehensive wiring system can provide convenience for future application of users, protect investment of the users, and enable the users to transfer to a higher-level application range with less investment.

The topological structure of the overall system design is a star structure, and the topological structure is established as a network center, a residential building wiring room, a resident wiring box and a user side:

from the overall structure, the structured wiring system consists of a building group trunk line, a horizontal area, a working area and an equipment management room, wherein a computer mainframe room is respectively arranged in each cell to perform centralized management on trunk line cables of residential buildings, a wiring room is arranged in each residential building and is used for managing horizontal area cable application of each residential building, and a household wiring junction box is arranged in each household and is used for managing working area cables in the household;

the set information point is limited to computer communication network communication data transmission, a star-shaped topological structure is adopted, the scheme adopts AMP fast-connection distribution frame awakening distribution management, the AMP fast-connection distribution frame awakening distribution management is linked to a working area end by using ultra-five twisted pairs to realize end-to-end management, 6-core multimode outdoor optical fibers are adopted among building groups, the building group is suitable for application occasions of underground pipelines and direct installation, and steel armor provides corrosion protection and lightning protection limit protection for the optical fibers.

The workspace subsystem comprises:

in the design consideration of the wiring system, the larger the number density of the user areas is, the more flexible the increase, decrease and migration of the terminating equipment in the future, and according to the EIA/TIA570A standard, each user areｃA needs to have at least two information sockets, one of which must be ｃA 5-type socket for datｃA communication, and the approved information ports are respectively ｃA 3-type information module, ｃA 5-type information module, an STP- ｃA information port and ｃA multimode optical fiber information socket.

The horizontal trunk subsystem includes:

cable and length: according to star network topology structure and subsystem requirement design of corresponding working area, each user workstation has 1, 4 pairs of ultra five unshielded twisted pair wires connected to modular distribution frame user end of main distribution frame, each can be used as basic voice, data network and other various communication applications, and longest length does not exceed 90m upper limit of 90m of EIA/TIA570A, thus can guarantee development and application of various and rapid networks in the future, meet communication transmission requirement of non-stop application, length of horizontal cable used, from distribution frame to user information point, including the following parts: the inner section of the machine room: the wire casing export 3m to the rack in 3m + on the ceiling under the floor, machine room information point department smallpox: dividing the cable into pieces according to the dense area of the information points, estimating the average cable length of 25m according to the distance, and arranging the ceiling socket end at the information points: 6m, calculate the required cable total length of all information points according to above, still need increase 25% because of the honor length of cable route bending, construction loss, walk the line mode: the trunk line groove adopts the galvanized iron groove, and the spool from the trunk line groove to each room adopts the PVC pipe, about the wiring mode in the room, on the wall part: the method of applying PVC line pipe is suggested, and at the point of information, the bottom box and panel are installed uniformly at the place where the wall surface is 30cm away from the ground.

The inter-device management subsystem includes:

the device management inter-role is; the device is used as an external information access and carries out data and electric signal transmission with the outside; the PDS system cable, which is used in central management of PABX voice system and computer network, but the computer main room of the equipment room, according to the requirements of users, does not provide PABX voice system, the setting mode of the subsystem and management subsystem of the equipment room are very similar, on the other hand, the equipment room is terminated and managed, comprising: the horizontal subsystem cable and the data cable of the network equipment in each working area are designed in detail as follows, a 1.6m standard 19in cabinet, 600mmx600mm is used for installing network equipment such as a distribution frame Swich and the like: the distribution frame adopts a quick-connection 24-port distribution frame; the horizontal area cable is terminated on the quick-connection type 24-port accessory rack; the horizontal area cable is terminated behind the quick-connect distribution frame, the horizontal data cable is jumped to the network equipment by using a jumper wire, and the jumper wire management is carried out by using a 1.75-inch wire management frame.

The vertical trunk line subsystem of the building group comprises:

the area for implementing wiring engineering is every residential building in the district, belonging to a park wiring system, a district comprehensive building is provided with a main wiring room, each building is provided with a wiring room, the main wiring room is connected with the wiring room through a 4-core optical fiber, and the optical fiber wiring mode adopts wiring along a water ditch beside the building or digging earthwork buried wiring.

Structured cabling system label settings include:

to fully develop the management function of the system for structured wiring, the system must be provided with a set of perfect labels and subsystem identification standards, and the following requirements are made according to the management standards of the telecommunication channel structure of the EIA/TIA606 commercial building: the labels identifying the two terminals of the same cable should be of the same color, with the cross-connection typically being made outside the connection of the two blind colored areas.

To sum up, by splitting the horizontal trunk subsystem and the vertical trunk subsystem in the cable run, which use different types of cables, respectively, the horizontal trunk subsystem: 62.5/125 μm multimode fiber optic cable, mostly indoor fiber optic cable, vertical trunk subsystem: the 10/125 mu m single-mode optical cable of the 62.5/125 mu m multimode optical cable and the comprehensive wiring system standard are open system standards which can be widely applied, so that wiring according to the comprehensive wiring system can provide convenience for future application of users, protect investment of the users, and enable the users to transfer to a higher-level application range with less investment; the star structure is adopted to support the application of various networks at present and in the future, and the networks with different logic topological structures can be realized through jumper wires and different network equipment; cables used by the computer network can meet 155Mbps so as to ensure high-speed information transmission of the computer network in future, including the transmission requirement of multimedia information; an interface is left between the computer network and the high-speed telecommunication network to facilitate future high-speed remote computer communication.

The working and using process and installation method of the invention are, this computer network comprehensive wiring implementation method is when using, through implementing the area of the wiring project for each residential building in the district, belong to the garden wiring system, the district comprehensive building sets up a main distribution room, set up a distribution room in each building, the connection mode between main distribution room and distribution room is connected through a 4 core optical fiber, the optical fiber routing mode adopts and walks along the side ditch of the building or digs the earthwork and buries the ground and walks, in order to fully exert the systematic management function of the structural wiring, this system must be equipped with a set of perfect labels and subsystem recognition standard, the management standard according to EIA/TIA606 commercial building's telecommunication channel structure has made the following requirement: the labels identifying the two terminals of the same cable should be of the same color, with the cross-connection typically being made outside the connection of the two blind colored areas.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The computer network comprehensive wiring implementation method is characterized by comprising the following steps: including communication automation system, office automation system and computer network system, support pronunciation application, data transmission, image movie & TV, can support generalized type application moreover at last, because wire rod, the transmission medium that network wiring system chose to use of generalized type pronunciation and data transmission are various, wiring system still includes: the system comprises a working area subsystem, a horizontal trunk subsystem, an equipment management subsystem, a building group vertical trunk subsystem and a structural wiring system label setting.

2. The method for implementing comprehensive wiring of a computer network according to claim 1, wherein: still include the cable wiring system:

optical cable wiring system: splitting a horizontal trunk subsystem and a vertical trunk subsystem in the cable run, which use different types of cables, respectively, the horizontal trunk subsystem: 62.5/125 μm multimode fiber optic cable, mostly indoor fiber optic cable, vertical trunk subsystem: the 10/125 mu m single mode optical cable of 62.5/125 mu m multimode optical cable and the comprehensive wiring system standard are open system standards which can be widely applied, therefore, wiring according to the comprehensive wiring system can provide convenience for future application of users, protect investment of the users, and enable the users to transfer to a higher-level application range with less investment.

3. The method for implementing comprehensive wiring of a computer network according to claim 1, wherein: the topological structure of the overall system design is a star structure, and the topological structure is established as a network center, a residential building wiring room, a resident wiring box and a user side:

from the overall structure, the structured wiring system consists of a building group trunk line, a horizontal area, a working area and an equipment management room, wherein a computer mainframe room is respectively arranged in each cell to perform centralized management on trunk line cables of residential buildings, a wiring room is arranged in each residential building and is used for managing horizontal area cable application of each residential building, and a household wiring junction box is arranged in each household and is used for managing working area cables in the household;

the set information point is limited to computer communication network communication data transmission, a star-shaped topological structure is adopted, the scheme adopts AMP fast-connection distribution frame awakening distribution management, the AMP fast-connection distribution frame awakening distribution management is linked to a working area end by using ultra-five twisted pairs to realize end-to-end management, 6-core multimode outdoor optical fibers are adopted among building groups, the building group is suitable for application occasions of underground pipelines and direct installation, and steel armor provides corrosion protection and lightning protection limit protection for the optical fibers.

4. The method for implementing comprehensive wiring of a computer network according to claim 1, wherein: the workspace subsystem comprises:

in the design consideration of the wiring system, the larger the number density of the user areas is, the more flexible the increase, decrease and migration of the terminating equipment in the future, and according to the EIA/TIA570A standard, each user areｃA needs to have at least two information sockets, one of which must be ｃA 5-type socket for datｃA communication, and the approved information ports are respectively ｃA 3-type information module, ｃA 5-type information module, an STP- ｃA information port and ｃA multimode optical fiber information socket.

5. The method for implementing comprehensive wiring of a computer network according to claim 1, wherein: the horizontal trunk subsystem comprises:

cable and length: according to star network topology structure and subsystem requirement design of corresponding working area, each user workstation has 1, 4 pairs of ultra five unshielded twisted pair wires connected to modular distribution frame user end of main distribution frame, each can be used as basic voice, data network and other various communication applications, and longest length does not exceed 90m upper limit of 90m of EIA/TIA570A, thus can guarantee development and application of various and rapid networks in the future, meet communication transmission requirement of non-stop application, length of horizontal cable used, from distribution frame to user information point, including the following parts: the inner section of the machine room: the wire casing export 3m to the rack in 3m + on the ceiling under the floor, machine room information point department smallpox: dividing the cable into pieces according to the dense area of the information points, estimating the average cable length of 25m according to the distance, and arranging the ceiling socket end at the information points: 6m, calculate the required cable total length of all information points according to above, still need increase 25% because of the honor length of cable route bending, construction loss, walk the line mode: the trunk line groove adopts the galvanized iron groove, and the spool from the trunk line groove to each room adopts the PVC pipe, about the wiring mode in the room, on the wall part: the method of applying PVC line pipe is suggested, and at the point of information, the bottom box and panel are installed uniformly at the place where the wall surface is 30cm away from the ground.

6. The method for implementing comprehensive wiring of a computer network according to claim 1, wherein: the inter-device-management subsystem includes:

the device management inter-role is; the device is used as an external information access and carries out data and electric signal transmission with the outside; the PDS system cable, which is used in central management of PABX voice system and computer network, but the computer main room of the equipment room, according to the requirements of users, does not provide PABX voice system, the setting mode of the subsystem and management subsystem of the equipment room are very similar, on the other hand, the equipment room is terminated and managed, comprising: the horizontal subsystem cable and the data cable of the network equipment in each working area are designed in detail as follows, a 1.6m standard 19in cabinet, 600mmx600mm is used for installing network equipment such as a distribution frame Swich and the like: the distribution frame adopts a quick-connection 24-port distribution frame; the horizontal area cable is terminated on the quick-connection type 24-port accessory rack; the horizontal area cable is terminated behind the quick-connect distribution frame, the horizontal data cable is jumped to the network equipment by using a jumper wire, and the jumper wire management is carried out by using a 1.75-inch wire management frame.

7. The method for implementing comprehensive wiring of a computer network according to claim 1, wherein: the vertical trunk line subsystem of the building group comprises:

the area for implementing wiring engineering is every residential building in the district, belonging to a park wiring system, a district comprehensive building is provided with a main wiring room, each building is provided with a wiring room, the main wiring room is connected with the wiring room through a 4-core optical fiber, and the optical fiber wiring mode adopts wiring along a water ditch beside the building or digging earthwork buried wiring.

8. The method for implementing comprehensive wiring of a computer network according to claim 1, wherein: the structured cabling system label setting includes:

to fully develop the management function of the system for structured wiring, the system must be provided with a set of perfect labels and subsystem identification standards, and the following requirements are made according to the management standards of the telecommunication channel structure of the EIA/TIA606 commercial building: the labels identifying the two terminals of the same cable should be of the same color, with the cross-connection typically being made outside the connection of the two blind colored areas.