CN204334603U - For the network architecture of warehousing management - Google Patents

Abstract

The utility model discloses a kind of network architecture for warehousing management, this network architecture comprises: core switch, is arranged on central machine room; Contact convergence switch, is distributed in fibre optic installations path, reservoir area is connected with described core switch and jointly forms optical fiber ring network; And WAP (wireless access point), be connected with described contact convergence switch.The above-mentioned network architecture can ensure by forming looped network the normal transmission guaranteeing data, and cable network and wireless network are combined, wired and wireless two kinds of network access modes can be realized carry out transfer of data and reach network coverage widely, and stability and the fail safe of the Internet Transmission of WAP (wireless access point) can be ensured.

Description

For the network architecture of warehousing management

Technical field

The utility model relates to a kind of network architecture for warehousing management, particularly, relates to a kind of network architecture based on fiber-optic self-healing ring integrated wireless access point for warehousing management.

Background technology

In the prior art, for the management of silo, switchgear house, meter Chang, drying plant and sensing chamber etc., usually in star-like mode they to be connected with machine room center by optical fiber that carrying out communicates realizes.But, in the star-like connected mode of such optical fiber, because a management object is communicated with host center by an optical fiber, once network path breaks down, the network service of management object and host center will be interrupted and cannot carry out transfer of data, must by just recovering communication after relevant staff's failture evacuation.

Utility model content

The purpose of this utility model is to provide a kind of network architecture for warehousing management, breaks down to solve network path in prior art and network service is interrupted and must be carried out the problem of failture evacuation maintenance by relevant staff.

To achieve these goals, the utility model provides a kind of network architecture for warehousing management, and this network architecture comprises: core switch, is arranged on central machine room; Contact convergence switch, is distributed in fibre optic installations path, reservoir area is connected with described core switch and jointly forms optical fiber ring network; And WAP (wireless access point), be connected with described contact convergence switch.

Preferably, this network architecture also comprises: watch-dog, is distributed on fibre optic installations path, reservoir area and is connected with described contact convergence switch, for monitoring warehouse.

Preferably, this network architecture also comprises: data optical receiver, is connected with described watch-dog.

Preferably, this network architecture also comprises: ancillary equipment; And access switch, described ancillary equipment is connected to described core switch via this access switch.

Pass through technique scheme, the above-mentioned network architecture can ensure by forming looped network the normal transmission guaranteeing data, and cable network and wireless network are combined, wired and wireless two kinds of network access modes can be realized carry out transfer of data and reach network coverage widely, and stability and the fail safe of the Internet Transmission of WAP (wireless access point) can be ensured.

Other feature and advantage of the present utility model are described in detail in embodiment part subsequently.

Accompanying drawing explanation

Accompanying drawing is used to provide further understanding of the present utility model, and forms a part for specification, is used from explanation the utility model, but does not form restriction of the present utility model with embodiment one below.In the accompanying drawings:

Fig. 1 is according to the network architecture for warehousing management of the present utility model.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in detail.Should be understood that, embodiment described herein, only for instruction and explanation of the utility model, is not limited to the utility model.

Fig. 1 is according to the network architecture for warehousing management of the present utility model.

As shown in Figure 1, comprise according to the network architecture for warehousing management of the present utility model: core switch 10, is arranged on central machine room; Contact convergence switch 12, is distributed in fibre optic installations path, reservoir area to be connected with described core switch 10 via optical fiber and jointly forms optical fiber ring network; And WAP (wireless access point) (AP) 14, be connected with described contact convergence switch 12.

Wherein, reservoir area can be the depot area comprising one or more warehouse (storing other article beyond grain or grain) and/or other buildings (such as switchgear house, meter Chang, drying plant and sensing chamber etc.) one or more, and fibre optic installations path, reservoir area can cover this reservoir area.

Although respectively illustrate four contact convergence switches 12 and eight WAP (wireless access point) 14 in Fig. 1, the utility model is not limited thereto, and those skilled in the art can the quantity of docking point convergence switch 12 and WAP (wireless access point) 14 according to actual needs set.Preferably, 5 wireless aps access points can be set at contact convergence switch 12 place, thus the wireless network covering of grain depot district can be reached, realize the seamless access of wireless terminal device.

In the present embodiment, described contact convergence switch 12 to be connected with described core switch 10 via optical fiber and jointly to form optical fiber ring network (that is, a kind of networking mode of Technical on SDH Network).In this optical fiber ring network, optical networking unit (contact convergence switch 12 and core switch 10) completes the major functions such as synchronous transmission to information, multiplexing and interconnection, there is the Network-Node Interface that the whole world is unified, simplify the intercommunication of signal, transmission, multiplexing, the process such as interconnection and exchange; And the optical interface having standard unified, transverse compatibility can be realized in basic optical cable segment.And, owing to as above constituting optical fiber ring network, so when communication network breaks down, without the need to human intervention, automatically the business entrained by can recovering from failure of removal within the extremely short time, makes the imperceptible network of user be out of order, can ensure the normal transmission of data (namely, network is possessed find fault and can find alternative transmission path by ability, in comparatively short duration, re-establish communication).

The above-mentioned network architecture can ensure by forming looped network the normal transmission guaranteeing data, and cable network and wireless network are combined, wired and wireless two kinds of network access modes can be realized carry out transfer of data and reach network coverage widely, and stability and the fail safe of the Internet Transmission of WAP (wireless access point) can be ensured.Wherein, WAP (wireless access point) transfers the wire signal of cable network to wireless signal, and such as, notebook or computer access wireless Wi-Fi local area network (LAN) by the signal receiving its transmitting.

According to an embodiment of the present utility model, this network architecture also comprises: watch-dog, is distributed on fibre optic installations path, reservoir area and is connected with described contact convergence switch 12, for monitoring warehouse.

In the present embodiment, this network architecture also comprises: data optical receiver, is connected with described watch-dog.By using this data optical receiver, electro-optic conversion and opto-electronic conversion can be carried out to the signal transmitted in network.

According to an embodiment of the present utility model, this network architecture also comprises: ancillary equipment; And access switch, described ancillary equipment is connected to described core switch via this access switch.

For this network architecture, various server, active station etc. all directly access on the core switch 10 in this network architecture, ancillary equipment (as office network equipment) is connected on core switch 10 by access switch, the contact convergence switch 12 of each storehouse watch-dog then nearby in incoming fiber optic looped network, this layout network configuration is clear, and network layer is clearly demarcated.In central machine room side; core switch 10 is connected with fire compartment wall 16; data acquisition server can directly be linked on core switch 10; and the servers such as WEB can provide access for the network user; be connected on the isolated area (DMZ) of fire compartment wall 16; other equipment, all at the interior zone of fire compartment wall 16, is got up by firewall protection, thus makes overall network structure very safe.

The core switch 10 adopted in the utility model supports three layers of dynamic routing function, and the past contrary two-way extraction optical cable of both direction (such as 144 core optical cables) after going out machine room, the primary warehouse (as silo) along reservoir area forms loop network.Such as, 1 contact convergence switch 10 can all be configured, jointly to form multinode optical fiber ring network with core switch 10, namely in order to build ethernet ring network platform in one or more and weight house place in multiple silo.Those skilled in the art can determine to need to install contact convergence switch 12 to which silo, weight house, switchgear house, meter Chang, drying plant and sensing chamber's equipotential according to actual conditions.Whole ethernet ring network platform is by the interannular coupling technique of each switch and polymerization technique, the mutually redundant entirety of dual link redundancy link.

In addition, on above-mentioned optical fiber ring network basis, looped network node equipment cabinet (such as, this looped network node equipment cabinet is integrally formed by contact convergence switch 10 and switch with for its power supply etc. of powering, impact and destruction to prevent contact convergence switch 10 etc. to be subject to external environment condition) can to 150 meters to 400 meters within silo and switchgear house, meter Chang, drying plant, sensing chamber etc. draw optical cable (such as 4 core optical cables) or netting twine, thus realize connecing with the information node equipment box in warehouse.The every warehouse of such guarantee, under the condition of access looped network, is reserved with 4 core optical cables, can facilitates the various information system such as grain feelings industrial data collection needed for connecting system, safety monitoring, circumference monitoring, Intelligent logistics.Further, can also by configuration access access switch, as nodes such as switchgear house, meter Chang, drying plant, sensing chamber's checkout equipments, thus form comprehensive data acquisition switching system, form comprehensive informatization and network structure, make switchgear house, meter Chang, drying plant, sensing chamber's checkout equipment etc. also can obtain the relevant informations such as silo.Those skilled in the art can flexible configuration expansion equipment according to actual needs.

As can be seen from above-described embodiment, the above-mentioned network architecture can ensure by forming looped network the normal transmission guaranteeing data, and cable network and wireless network are combined, wired and wireless two kinds of network access modes can be realized carry out transfer of data and reach network coverage widely, and stability and the fail safe of the Internet Transmission of WAP (wireless access point) can be ensured.In addition, this network architecture is easy to carry out extension of network, and expansion cost is low, speed is fast.

Below preferred implementation of the present utility model is described by reference to the accompanying drawings in detail; but; the utility model is not limited to the detail in above-mentioned execution mode; within the scope of technical conceive of the present utility model; can carry out multiple simple variant to the technical solution of the utility model, these simple variant all belong to protection range of the present utility model.

It should be noted that in addition, each the concrete technical characteristic described in above-mentioned embodiment, in reconcilable situation, can be combined by any suitable mode.In order to avoid unnecessary repetition, the utility model illustrates no longer separately to various possible compound mode.

In addition, also can carry out combination in any between various different execution mode of the present utility model, as long as it is without prejudice to thought of the present utility model, it should be considered as content disclosed in the utility model equally.

Claims (4)

1. for a network architecture for warehousing management, it is characterized in that, this network architecture comprises:

Core switch, is arranged on central machine room;

Contact convergence switch, is distributed in fibre optic installations path, reservoir area is connected with described core switch and jointly forms optical fiber ring network; And

WAP (wireless access point), is connected with described contact convergence switch.

2. the network architecture according to claim 1, is characterized in that, this network architecture also comprises:

Watch-dog, is distributed on fibre optic installations path, reservoir area and is connected with described contact convergence switch, for monitoring warehouse.

3. the network architecture according to claim 2, is characterized in that, this network architecture also comprises: data optical receiver, is connected with described watch-dog.

4. the network architecture according to claim 1, is characterized in that, this network architecture also comprises:

Ancillary equipment; And

Access switch, described ancillary equipment is connected to described core switch via this access switch.