CN205274702U - Pneumatic logistics transmission control system of multiple layer distribution formula - Google Patents

Abstract

The utility model discloses a pneumatic logistics transmission control system of multiple layer distribution formula, including surveillance center, main control system, domain controller, fan control ware and node controller, the surveillance center is connected with the main control system electricity, domain controller, fan control ware and node controller are equipped with the multiunit, and every group is all corresponding with pneumatic logistics transmission system's a region to manage the fan in this region, converter, switch, website, the main control system passes through ethernet and all domain controller communication hookups, passes through the bus connection between each group domain controller, fan control ware and node controller. The utility model discloses a system management control dispersion, diversification of risk. The trouble of certain node, controller can not influence entire system's operation, and the supervision is responsible for to the main control system, has reduced the reliance to management host computer computer of system risk and system.

Description

A kind of multilayer distributed Pneumatic logistic transport controls system

Technical field

This utility model relates to a kind of multilayer distributed Pneumatic logistic transport and controls system.

Background technology

Pneumatic logistic transport is to make pipeline form pressure reduction by blower fan work, object can move along with pressure reduction, simultaneously by wind direction switching, transducer, switch, website scheduling controlling, form the flow direction of passage and logistics loader, reach transmitting-receiving article transmission, the final logistics transmission function realizing meeting user's request. Typical customers is hospital, library, and the operation time of system, reliability, stability are had very high requirement by client.

The control of currently used Pneumatic logistic, adopts centralized management and control, and central task is all complete on PC, so can bring about a problem, if PC breaks down, whole system will be paralysed, it is impossible to work. The stability of PC is proposed very high requirement, and whole system will be increased many risk factors by such requirement.

Utility model content

The purpose of this utility model is to provide a kind of multilayer distributed Pneumatic logistic transport and controls system, reduces the risk factor of system, it is ensured that system stable operation.

The technical scheme realizing this utility model purpose is: a kind of multilayer distributed Pneumatic logistic transport controls system, including Surveillance center, controls main frame, domain controller, controller of fan and Node Controller; Surveillance center electrically connects with controlling main frame; Described domain controller, controller of fan and Node Controller are provided with many groups, and often group is all corresponding with Pneumatic logistic transmission system region, and the blower fan in this region, transducer, switch, website are scheduling; Described control main frame is coupled with all domain controller communications by Ethernet, each group of domain controller, is coupled by bus between controller of fan and Node Controller.

Described Surveillance center has been used for the function for monitoring of whole Pneumatic logistic system running state, fault alarm function, system performance indicator-specific statistics analytic function, optimal scheduling configuration notification domain controller function, report capability, data sharing function, supports mobile equipment display function, and task issues function;

Described control main frame is for coordinating the task distribution between each domain controller;

Described domain controller has been used for the control scheduling feature of individual domain passage, completes cross-domain dispatch coordination function, completes territory health data upload function, completes the control function in this territory node;

Described controller of fan for realizing speed governing, start and stop, wind direction switching, fault detection capability according to demand to blower fan;

Described Node Controller has been used for the control function of transducer, transmitting-receiving station, it is achieved deliver receive capabilities, to mission bit stream upload function.

Have employed technique scheme, this utility model has following beneficial effect: this utility model adopts subsystem, subregion to be controlled, whole control strategies and dispatch all relevant by this subtask domain controller, Node Controller is controlled. The domain controller of each intra-zone is independently controlled, and does not interfere with each other, and subsystem, subregion fault do not affect the operation in other system and region, it is achieved that system administration controls dispersion, scattered risks. Certain node, controller fault, do not interfere with the operation of whole system, control main frame charge of overseeing, reduce the dependence to management host computer of system risk and system.

Accompanying drawing explanation

In order to make content of the present utility model be easier to be clearly understood, below according to specific embodiment and in conjunction with accompanying drawing, this utility model is described in further detail, wherein

Fig. 1 is theory diagram of the present utility model.

Being numbered in accompanying drawing:

Surveillance center 1, control main frame 2, domain controller 3, controller of fan 4, Node Controller 5.

Detailed description of the invention

(embodiment 1)

Seeing Fig. 1, the multilayer distributed Pneumatic logistic transport of the present embodiment controls system, including Surveillance center 1, controls main frame 2, domain controller 3, controller of fan 4 and Node Controller 5.

Surveillance center 1 electrically connects with controlling main frame 2. Domain controller 3, controller of fan 4 and Node Controller 5 are provided with many groups, and often group is all corresponding with Pneumatic logistic transmission system region, and the blower fan in this region, transducer, switch, website are scheduling. Control main frame 2 to be communicated with all domain controllers 3 connection by Ethernet, each group of domain controller 3, coupled by bus between controller of fan 4 and Node Controller 5.

Surveillance center 1 has been used for the function for monitoring of whole Pneumatic logistic system running state, fault alarm function, system performance indicator-specific statistics analytic function, optimal scheduling configuration notification domain controller 3 function, report capability, data sharing function, supports mobile equipment display function, and task issues function.

Control the main frame 2 task distribution for coordinating between each domain controller.

Domain controller 3 has been used for the control scheduling feature of individual domain passage, completes cross-domain dispatch coordination function, completes territory health data upload function, completes the control function in this territory node.

Controller of fan 4 for realizing speed governing, start and stop, wind direction switching, fault detection capability according to demand to blower fan.

Node Controller 5 has been used for the control function of transducer, transmitting-receiving station, it is achieved deliver receive capabilities, to mission bit stream upload function.

The multilayer distributed Pneumatic logistic transport of the present embodiment controls the control flow of system and is divided into this territory and cross-domain two kinds.

This territory is transmitted: this territory transmitting-receiving station is offered the challenge application, domain controller 3 is according to sending node, receiving node, scheduling strategy is determined in analysis, the Node Controller 5 of allotment introductory path, by the control to dispatching station and blower fan, sucks track by task vehicle, the cross point of sending and receiving website, carry out wind direction switching, task vehicle is blown into receptor, complete transmitting-receiving task.

Cross-domain transmission: transmitting-receiving station is offered the challenge application, the domain controller 3 address properties according to receiving station, vehicle is delivered to this territory realm entry to receiving station, mission bit stream is given control main frame 2 simultaneously, control main frame 2 by information decomposition to the domain controller 3 of receiving area, the task vehicle received, according to mission bit stream, is sent into receiving station by the domain controller 3 of receiving area.

Particular embodiments described above; the purpose of this utility model, technical scheme and beneficial effect have been further described; it is it should be understood that; the foregoing is only specific embodiment of the utility model; it is not limited to this utility model; all within spirit of the present utility model and principle, any amendment of making, equivalent replacement, improvement etc., should be included within protection domain of the present utility model.

Claims (1)

1. a multilayer distributed Pneumatic logistic transport controls system, it is characterised in that: include Surveillance center (1), control main frame (2), domain controller (3), controller of fan (4) and Node Controller (5); Surveillance center (1) electrically connects with controlling main frame (2); Described domain controller (3), controller of fan (4) and Node Controller (5) are provided with many groups, often group is all corresponding with Pneumatic logistic transmission system region, and the blower fan in this region, transducer, switch, website are scheduling; Described control main frame (2) is communicated with all domain controllers (3) connection by Ethernet, each group of domain controller (3), is coupled by bus between controller of fan (4) and Node Controller (5).