CN219980850U - Structured cabling network system - Google Patents
Structured cabling network system Download PDFInfo
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- CN219980850U CN219980850U CN202320983272.2U CN202320983272U CN219980850U CN 219980850 U CN219980850 U CN 219980850U CN 202320983272 U CN202320983272 U CN 202320983272U CN 219980850 U CN219980850 U CN 219980850U
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Abstract
The utility model provides a structured wiring network system, which comprises a private network wiring system; the private branch network wiring system comprises a first core switch and a plurality of groups of first switching devices; the first switching equipment comprises a multi-port switch, broadcasting equipment, access control equipment and monitoring equipment; the first core switch is respectively connected with the input ends of the multi-port switch; in each group of first switching equipment, a first output end of the multi-port switch is connected with broadcasting equipment; the second output end of the multi-port switch is connected with the access control equipment; and a third output end of the multi-port switch is connected with the monitoring equipment. In each group of switching equipment, the utility model uses the multi-port switch to connect broadcast, access control and monitoring respectively, thereby avoiding the repeated arrangement of the switch and the waste of equipment resources and equipment space resources.
Description
Technical Field
The utility model relates to the technical field of wiring networks, in particular to a structured wiring network system. In particular, it relates to a structured wiring network design.
Background
A Switch (Switch) means a "Switch" is a network device used for electrical (optical) signal forwarding. It can provide an unshared electrical signal path for any two network nodes of the access switch. The most common switch is an ethernet switch. Other common are voice over phone switches, fiber optic switches, etc.
In the related art, the wiring network system comprises a core switch and a plurality of groups of switching devices, wherein the different groups of switching devices are respectively located at different positions, each group of switching devices comprises a plurality of switches, broadcasting devices, monitoring devices and access control devices, the core switch is respectively connected with one ends of the switches, the broadcasting devices are connected with the other ends of the switches for broadcasting in each group of switching devices, the monitoring devices are connected with the other ends of the switches for monitoring, and the access control devices are connected with the other ends of the switches for disabling doors.
In view of the above-mentioned prior art, the inventors consider that the number of switches used in each group of switching devices is large, which is easy to cause repeated arrangement of switches, resulting in waste of device resources and device space resources.
Disclosure of Invention
In view of the drawbacks of the prior art, an object of the present utility model is to provide a structured cabling network system.
The structured wiring network system provided by the utility model comprises a private network wiring system;
the private network wiring system comprises a first core switch, a first multi-port access switch, outdoor monitoring equipment, outdoor broadcasting equipment and a plurality of groups of first switching equipment;
the first switching equipment comprises a multi-port switch, broadcasting equipment, access control equipment and monitoring equipment;
the first core exchanger is connected with the input ends of the multi-port exchanger through multi-core indoor single-mode optical cables respectively;
in each group of first switching equipment, a first output end of the multi-port switch is connected with broadcasting equipment; the second output end of the multi-port switch is connected with the access control equipment; the third output end of the multi-port switch is connected with monitoring equipment;
the first core switch is also connected with the input end of the first multi-port access switch;
the first output end of the first multi-port access switch is connected with the outdoor monitoring equipment;
and a second output end of the first multi-port access switch is connected with outdoor broadcasting equipment.
Preferably, the private network wiring system further comprises a plurality of layers of weak-current cabinets;
the weak-current cabinet is arranged in one-to-one correspondence with the first switching equipment;
the multiple-port switches in each group of first switching devices are located in corresponding weak-current cabinets.
Preferably, the multi-port switch comprises a 24-port switch.
Preferably, the private network wiring system further comprises a network storage server, a management server and a comprehensive management platform;
the first core switch is also respectively connected with a network storage server, a management server and a comprehensive management platform.
Preferably, the private network wiring system further comprises a fire control room cabinet;
the network storage server, the management server, the comprehensive management platform, the first core switch and the first multi-port access switch are all located in the fire control room cabinet.
Preferably, the first multi-port access switch comprises a 24-port access switch.
Preferably, the wiring network system further comprises a communication wiring system;
the communication wiring system comprises a second core switch and a plurality of groups of second switching devices;
each group of second switching equipment comprises a second multi-port access switch, a multi-port POE switch, a computer and access equipment;
for each group of second switching equipment, the second core switches are commonly connected with the input end of a second multi-port access switch and the input end of a multi-port POE switch;
the output end of the second multi-port access switch is connected with a computer;
and the output end of the multi-port POE switch is connected with access equipment.
Preferably, for each group of second switching devices, the second core switch is commonly connected to the input end of the second multi-port access switch and the input end of the multi-port POE switch through a multi-core indoor single-mode optical cable.
Preferably, the communication wiring system further comprises a security room cabinet and a weak current room cabinet;
the second multi-port access switch and the multi-port POE switch in the second switching equipment are arranged in the security room cabinet; the second multi-port access switch and the multi-port POE switch in the second switching device of the other group are arranged in the weak-current cabinet.
Preferably, the multi-core indoor single-mode fiber optic cable comprises a 12-core indoor single-mode fiber optic cable.
Compared with the prior art, the utility model has the following beneficial effects:
1. in each group of switching equipment, the utility model uses the multi-port switch to connect broadcast, access control and monitoring respectively, avoids repeated arrangement of the switch, causes equipment resources and equipment space resources waste, and is beneficial to saving resources;
2. the utility model designs the private network wiring system and the communication wiring system separately, is convenient for the operation and maintenance management of the later-stage property, and has clear maintenance of the equipment property rights.
Drawings
Other features, objects and advantages of the present utility model will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:
FIG. 1 is a diagram of a computer network (intelligent private network) system;
fig. 2 is a diagram of a computer network (communication network) system.
Detailed Description
The present utility model will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the present utility model, but are not intended to limit the utility model in any way. It should be noted that variations and modifications could be made by those skilled in the art without departing from the inventive concept. These are all within the scope of the present utility model.
The embodiment of the utility model discloses a structured wiring network design, which is shown in fig. 1 and 2, and comprises a private network wiring system (intelligent private network) and a communication wiring system (communication network).
The private network wiring system comprises a first core switch (the core switch in fig. 1), a first multi-port access switch (the 24-port access switch in fig. 1), an outdoor monitoring device, an outdoor broadcasting device, a network storage server, a management server, a comprehensive management platform, a fire control room cabinet, a plurality of groups of first switching devices and a plurality of layers of weak-current cabinet. The first switching device includes a multi-port switch (24-port switch in fig. 1), a broadcasting device, an access control device, and a monitoring device.
The first core switch is respectively connected with the input end of the multi-port switch, the input end of the first multi-port access switch, the network storage server, the management server and the integrated management platform.
In each group of first switching equipment, a first output end of the multi-port switch is connected with broadcasting equipment; the second output end of the multi-port switch is connected with the access control equipment; and a third output end of the multi-port switch is connected with the monitoring equipment.
The first output end of the first multi-port access switch is connected with the outdoor monitoring equipment; the second output end of the first multi-port access switch is connected with the outdoor broadcasting equipment.
The first core exchanger is connected with the input ends of the multi-port exchanger through multi-core indoor single-mode optical cables respectively.
The weak-current cabinet is arranged in one-to-one correspondence with the first switching equipment. The multiple-port switches in each group of first switching devices are located in corresponding weak-current cabinets.
The network storage server, the management server, the integrated management platform, the first core switch and the first multi-port access switch are all located in the fire control room cabinet.
The communication wiring system includes a second core switch (core switch in fig. 2), a wireless controller, a unified authentication platform, a network surfing behavior management device, a firewall, and a plurality of sets of second switching devices.
Each group of second switching devices includes a second multi-port access switch (24-port access switch in fig. 2), a multi-port POE switch (24-port POE switch in fig. 2), a computer, and an access device (access point or AP). POE (Power Over Ethernet) is a technology for transmitting data signals to IP-based terminals (such as IP phones, wireless lan access points AP, webcams, etc.) while providing dc power to such devices without any modification to the existing ethernet cat.5 wiring infrastructure.
For each group of second switching equipment, the second core switch is commonly connected with the input end of the second multi-port access switch and the input end of the multi-port POE switch; the output end of the second multi-port access switch is connected with the computer; the output end of the multi-port POE switch is connected with the access device.
For each group of second switching equipment, the second core switch is commonly connected with the input end of the second multi-port access switch and the input end of the multi-port POE switch through the multi-core indoor single-mode optical cable.
The second multi-port access switch and the multi-port POE switch in the group of second switching equipment are arranged in the security room cabinet; the second multi-port access switch and the multi-port POE switch in the second switching equipment of the other two groups are arranged in the weak-current cabinet.
The second core switch is also respectively connected with the wireless controller, the unified authentication platform, the internet surfing behavior management equipment and the firewall; the wireless controller, the unified authentication platform, the internet surfing behavior management device, the firewall and the second core switch are arranged in the communication machine room.
The utility model divides security and communication into two network systems according to different operation departments of the system. The intelligent private network is uniformly designed for a network exchange management equipment system of a video monitoring system, an access control system and an anti-theft alarm system, and front-end equipment adopts the same type of rule cables. The communication network comprises a network traffic management device statistical design of voice, computer, information release and WIFI system. The switch and the broadcasting, monitoring access control and the like are connected to the RJ45 port, and the switch is connected with the switch through an optical fiber port. 1F represents a layer; 2F represents two layers; 3F represents three layers; INTERNET represents the Internet; the AP English is called Wireless Access Point, and the Chinese translation is a wireless access point.
The utility model is applicable to digital systems. According to the functions of the subsystems of weak current and the segmentation interface of comprehensive property management, the vertical trunk cables and equipment between the devices are subjected to structural network design, and the subsystems are divided into two networks, namely a communication network and an equipment network, to be subjected to structural framework design.
In the description of the present utility model, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.
The foregoing describes specific embodiments of the present utility model. It is to be understood that the utility model is not limited to the particular embodiments described above, and that various changes or modifications may be made by those skilled in the art within the scope of the appended claims without affecting the spirit of the utility model. The embodiments of the utility model and the features of the embodiments may be combined with each other arbitrarily without conflict.
Claims (10)
1. A structured cabling network system, comprising a private network cabling system;
the private network wiring system comprises a first core switch, a first multi-port access switch, outdoor monitoring equipment, outdoor broadcasting equipment and a plurality of groups of first switching equipment;
the first switching equipment comprises a multi-port switch, broadcasting equipment, access control equipment and monitoring equipment;
the first core exchanger is connected with the input ends of the multi-port exchanger through multi-core indoor single-mode optical cables respectively;
in each group of first switching equipment, a first output end of the multi-port switch is connected with broadcasting equipment; the second output end of the multi-port switch is connected with the access control equipment; the third output end of the multi-port switch is connected with monitoring equipment;
the first core switch is also connected with the input end of the first multi-port access switch;
the first output end of the first multi-port access switch is connected with the outdoor monitoring equipment;
and a second output end of the first multi-port access switch is connected with outdoor broadcasting equipment.
2. The structured cabling network system of claim 1, wherein the private network cabling system further comprises a multi-layer weak inter-enclosure;
the weak-current cabinet is arranged in one-to-one correspondence with the first switching equipment;
the multiple-port switches in each group of first switching devices are located in corresponding weak-current cabinets.
3. The structured cabling network system of claim 1, wherein the multi-port switch comprises a 24-port switch.
4. The structured cabling network system of claim 1, wherein the private network cabling system further comprises a network storage server, a management server, and an integrated management platform;
the first core switch is also respectively connected with a network storage server, a management server and a comprehensive management platform.
5. The structured cabling network system of claim 4, wherein the private network cabling system further comprises a fire control room cabinet;
the network storage server, the management server, the comprehensive management platform, the first core switch and the first multi-port access switch are all located in the fire control room cabinet.
6. The structured cabling network system of claim 1, wherein the first multi-port access switch comprises a 24-port access switch.
7. The structured cabling network system of claim 1, further comprising a communication cabling system;
the communication wiring system comprises a second core switch and a plurality of groups of second switching devices;
each group of second switching equipment comprises a second multi-port access switch, a multi-port POE switch, a computer and access equipment;
for each group of second switching equipment, the second core switches are commonly connected with the input end of a second multi-port access switch and the input end of a multi-port POE switch;
the output end of the second multi-port access switch is connected with a computer;
and the output end of the multi-port POE switch is connected with access equipment.
8. The structured cabling network system of claim 7, wherein for each set of second switching devices, the second core switches are commonly connected to the inputs of the second multi-port access switch and the inputs of the multi-port POE switch by multi-core indoor single mode fiber optic cables.
9. The structured cabling network system of claim 7, wherein the communication cabling system further comprises a security room cabinet and a weak-current cabinet;
the second multi-port access switch and the multi-port POE switch in the second switching equipment are arranged in the security room cabinet; the second multi-port access switch and the multi-port POE switch in the second switching device of the other group are arranged in the weak-current cabinet.
10. The structured cabling network system of claim 1, wherein the multi-core indoor single mode fiber optic cable comprises a 12-core indoor single mode fiber optic cable.
Priority Applications (1)
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CN202320983272.2U CN219980850U (en) | 2023-04-26 | 2023-04-26 | Structured cabling network system |
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CN202320983272.2U CN219980850U (en) | 2023-04-26 | 2023-04-26 | Structured cabling network system |
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