CN204224109U - High pedestal jib crane security monitor platform - Google Patents

Abstract

A kind of high pedestal jib crane security monitor platform, comprise remote terminal 1, internet 2, gateway 3, situ industrial ethernet 4 and multiple on-the-spot Sensor Network 5, described on-the-spot Sensor Network 5 comprises field instrument 6 and sensor group 7.The utility model can carry out comprehensive on-line monitoring detection to hoisting crane, alleviates the labour intensity of testing staff widely, saves manpower, increases work efficiency.For equipment use and operating personal, the current operation conditions of mechanical equipment can be understood in real time, also can carry out long-range real-time monitoring simultaneously, facilitate Timeliness coverage problem and take appropriate measures, avoiding the generation of accident.The manufacturer of equipment also can recognize the problem of equipment emerged in operation in time, for the improvement of equipment provides theoretical foundation.

Description

High pedestal jib crane security monitor platform

Technical field

The present invention relates to crane safety monitoring field, especially a kind of high pedestal jib crane security monitor platform.

Background technology

The traditional regular visit mode of hoisting crane is by the mode of in-site installation sensor, according to the rule detected and flow process, measure a period of time, obtain a part of sampled data, thus the reliability of judgment device, understanding hoisting crane that can not the be real-time operation conditions at the scene in actual job, this method of inspection can not meet the requirement of people day by day.

Summary of the invention

Technical matters to be solved by this invention is, provides a kind of high pedestal jib crane security monitor platform.

For solving the problems of the technologies described above, the invention provides a kind of high pedestal jib crane security monitor platform.

Security monitor platform, comprise remote terminal, internet, gateway, situ industrial ethernet and multiple on-the-spot Sensor Network, described on-the-spot Sensor Network comprises field instrument and sensor group.Sensor group comprises multiple sensor, each sensor carries out Data Detection to the project of quantitative detection and qualitative detection respectively, described sensor group is connected with field instrument by Modbus/RS485 network, field instrument can to the order successively Real-time Collection of the detection data of sensor each in sensor group according to priority, image data is carried out pretreatment and is packed by described on-the-spot Sensor Network, then via Industrial Ethernet, gateway, internet reaches remote terminal, the monitor supervision platform of remote terminal can be monitored in real time to the data on field instrument, analyze, store and report to the police.

Each sensor in described sensor group is connected in the mode of fieldbus with field instrument, and the Physical layer of on-the-spot Sensor Network adopts RS485.Described field instrument adopts industrial panel computer or embedded industrial computer.

The communication protocol of described Industrial Ethernet is Modbus/TCP, Modbus/TCP communication protocol Physical layer and data link layer are based on ethernet standard agreement, network layer and transport layer adopt ICP/IP protocol, application layer all adopts Modbus application layer Message Protocol, be connected by Industrial Ethernet between described multiple field instrument and gateway, and according to GB/T 19582.3-2008, Modbus realized on TCP/IP.

The priority of the real time data of described qualitative detection is higher than the real time data quantitatively detected.

Beneficial effect of the present invention is: can carry out comprehensive on-line monitoring detection to hoisting crane, alleviates the labour intensity of testing staff widely, saves manpower, increases work efficiency.For equipment use and operating personal, the current operation conditions of mechanical equipment can be understood in real time, also can carry out long-range real-time monitoring simultaneously, facilitate Timeliness coverage problem and take appropriate measures, avoiding the generation of accident.The manufacturer of equipment also can recognize the problem of equipment emerged in operation in time, for the improvement of equipment provides theoretical foundation.

Accompanying drawing explanation

Fig. 1 is the constructional drawing of security monitor platform of the present invention.

Fig. 2 is the schematic diagram of the on-the-spot Sensor Network of security monitor platform of the present invention.

Fig. 3 is the schematic diagram of the Sensor Network of employing Modbus/TCP bus of the present invention.

Fig. 4 is hoisting capacity checking system schematic diagram of the present invention.

Fig. 5 is anticollision integral structure schematic diagram of the present invention.

Fig. 6 is the signal transmission schematic diagram of hoisting crane temperature detection of the present invention.

Fig. 7 is hoist brake integral structure schematic diagram of the present invention.

Detailed description of the invention

High pedestal jib crane holographic measuring method is mainly divided into quantitatively detection and qualitative detection two aspects, quantitative test item comprises the detection of hoisting capacity, the detection of amplitude, same or not same orbital motion institution secure distance detects, work-hours detects, lubricating oil temperature detects, wind speed measurement, and environmental factor detects; Qualitative detection project comprises the/descending spacing detection that hoists, and hoist brake safe spacing detects, the spacing detection of degreeof turn, and supply cable reel safe spacing detects.

As shown in Figure 4, namely the measurement of hoisting capacity is the measurement of rope pulling force.At the reel axle head of crane hoisting mechanism, an absolute type encoder is installed, is detected the absolute angle turned over of reel by absolute type encoder, measure the length of steel rope, and send industrial panel computer in the mode of Modbus bus; Degree of will speed up sensor consolidation on a steel cord, adopt Fluctuation Method to detect vibration signal and signal is amplified, A/D is converted to digital signal; DSP is carried out denoising, spectral analysis to the digital signal that acceleration pick-up collects, is recorded each rank natural frequency of vibration f of steel rope _n, and by data by Zigbee wireless way for transmitting, via Zigbee wireless reception module and Zigbee wireless reception module transfer to industrial panel computer; In industrial panel computer, input arranges steel rope linear density ρ and coefficient of correction β, and in conjunction with the natural frequency of vibration f that Real-time Collection arrives _ncalculate, show, store the hoisting capacity Q of hoisting crane with steel rope actual length L, simultaneously automatic by the biggest lifting capacity Q of the real-time hoisting capacity that detects and hoisting crane _maxcompare, judge whether overload, the signal if overload industrial panel computer gives the alarm, and store alarm events.The computing formula of described crane load is as follows:

$T=4\mathrm{\β\ρ}{L}^2\left(\frac{f_{n_2}^2-f_{n_1}^2}{n_2^2-n_1^2}\right)$

As shown in Figure 5, same or not same orbital motion institution secure distance detects.Two modules of radar and laser recombination site induction installation are installed respectively at transfer crane arm and base position, two modules are respectively the main determination module of radar and the main determination module of laser, the data that the main determination module of radar is collected pass to ZigBee transmission unit A, the data that the main determination module of laser is collected pass to ZigBee transmission unit B, A, B ZigBee transmission unit is connected with device for pre-positioning, locating information is sent to crashproof resolution device by device for pre-positioning, when high pedestal jib crane is about to surmount predetermined bit positions, crashproof resolution device triggered alarm is reported to the police.Before high pedestal jib crane is by operation, the location information of hoisting crane all directions is first gathered by radar and laser recombination site induction installation, be arranged on the boom position that crane arm radar primary module mainly gathers other hoisting cranes on different track, the laser primary module being arranged on seat type lifting base portion to gather on same track gate-type hoist base position on gate-type hoist base position and different track by the laser dispersed, then position signal sends to ZigBee transmission unit A to hold by radar primary module, position signal sends to ZigBee transmission unit B to hold by laser primary module, then composite signal is sent to pre-determined bit unit by ZigBee transmission unit, pre-determined bit unit passes through by calculating real-time Area Of Safe Operation to the process of position signal, then the Area Of Safe Operation information in this moment sends to crashproof resolution device, when high pedestal jib crane is about to surmount predetermined bit positions, crashproof resolution device activating alarm is to annunciator, annunciator sounds, high pedestal jib crane stops with rail moving or crane arm rotary motion.

As shown in Figure 6, lubricating oil temperature detects.Surveyed lubricating oil temperature is passed to digital signal processing module by A/D converter by the temperature sensor be arranged in drop-gear box, if the reason that digital signal processing module analyzes lubricating oil temperature rising causes because of hoisting crane weariness working, then send signal to heat sink immediately, heat sink works, when lubricating oil temperature is got back to after in safe temperature range, temperature sensor sends safety signal, and heat sink quits work; If digital signal processing module analyzes reason that lubricating oil temperature raises because of caused by crane overload, then send signal to relay immediately, relay receives turn-off current after signal, and motor quits work, and drop-gear box shuts down.

As shown in Figure 7, hoist brake safe spacing detects.Brake material wear detector is embedded with in brake material, when brake material reaches the hazardous location of wearing and tearing, fret wear detector and brake disc come in contact, now fret wear detector sends a signal to micro controller system acquisition module, micro controller system acquisition module is with the form received signal interrupted, and send alerting signal to field instrument, the alerting signal that operator sends according to field instrument changes brake material, thus the safety misadventure preventing the undue wear due to material to cause brake failure and occur.

As Figure 1-3, high pedestal jib crane security monitor platform, comprises remote terminal 1, internet 2, gateway 3, situ industrial ethernet 4 and multiple on-the-spot Sensor Network 5, and described on-the-spot Sensor Network 5 comprises field instrument 6 and sensor group 7.Sensor group 7 comprises four sensors, four sensors are respectively to hoisting capacity, same or not same orbital motion institution secure distance, lubricating oil temperature, hoist brake safe spacing carries out Data Detection, described sensor group 7 is connected with field instrument 6 by Modbus/RS485 network, field instrument 6 can to the detection data of the sensor of four in sensor group 7 according to priority orders successively Real-time Collection, image data is carried out pretreatment and is packed by described on-the-spot Sensor Network 5, then via Industrial Ethernet 4, gateway 3, internet 2 reaches remote terminal 1, the monitor supervision platform of remote terminal 1 can be monitored in real time to the data on field instrument 6, analyze, store and report to the police.

Each sensor in described sensor group 7 is connected in the mode of fieldbus with field instrument 6, on-the-spot Sensor Network 5 is built according to standard GB/T/T 1958.2-2008 " the industrial automation network specification part 2 based on Modbus agreement: Modbus agreement realizes guide on serial link ", and the Physical layer of on-the-spot Sensor Network 5 adopts RS485.Described field instrument 6 adopts industrial panel computer or embedded industrial computer.

The communication protocol of described Industrial Ethernet 4 is Modbus/TCP, Modbus/TCP communication protocol Physical layer and data link layer are based on ethernet standard agreement, network layer and transport layer adopt ICP/IP protocol, application layer all adopts Modbus application layer Message Protocol, and concrete implementation detail is according to national GB/T19582.3-2008 " industrial automation network specification the 3rd part based on Modbus agreement: Modbus agreement realizes guide on TCP/IP "; Be connected by Industrial Ethernet 4 between described multiple field instrument 6 and gateway 3, and according to GB/T 19582.3-2008, Modbus realized on TCP/IP.

Monitor procedure:

As shown in Figure 3, the data that in sensor group 5 in Modbus/RS485 subnet four sensor detects by field instrument 4 are according to priority successively Real-time Collection, in Modbus/TCP net, data are passed to gateway 2, and be uploaded to remote terminal 1 via gateway 2 and Internet.

Element is selected:

On-the-spot human-computer interaction device and field instrument 6 adopt industrial panel computer, and concrete configuration is as follows:

A) brand: south China Intelligent industrial-control

B) model: HNPPC-1211 12.1 " LCD cun of aluminum alloy industrial panel computer

Feature: HNPPC-1211 is the industrial panel computer of a low-power consumption.Panel adopts aluminum alloy drawing technique, and elegant in appearance, stable performance, the feature such as powerful make it become certain choosing close to noiselessness working environment and dust free room application.

Product specification:

CPU IntelIvy Bridge platform Celeron double-core 1.8GHZ

Internal memory 2GB DDR3 SDRAM maximum support 8G

Chipset nM70 MOBILE chipset

Directx 11 is supported in display core HD Graphics (Sandy Bridge)

Hard disk 32G solid-state disk 2.5 cun can be matched

Read-out 12.1 cun of TFT LCD

Resolution 800X600

Touch-screen resistive touch screen

Com port 4 RS-232

A USB port USB2.0

Ethernet Realtek RTL8111EL PCI-E Gigabit Ethernet LAN

I/O interface 2 VGA, 4 USB, 1 HDMI, 1 12V input

2 RJ45,4 RS-232,1 5.1 audio frequency (2 hole), 1 switch

Working environment operating temperature-20 DEG C ~ 70 DEG C

Storage temperature 0 DEG C ~ 60 DEG C

C) package size: (324*258*64) mm

Installation dimension: (304*236*58) mm

Mounting means support installing, installation by adhering, wall-hanging installation

Power supply mode adapter input 12V 5A

Note: the input of wide pressure can be subscribed, continuation of the journey powered battery can be selected

Industrial panel computer dress Windows XP system, during exploitation interactive interface, can directly adopt C/C++ language to develop, without the need to transplanting on Visual Studio2010 platform.

Although the present invention illustrates with regard to preferred implementation and describes, only it will be understood by those of skill in the art that otherwise exceed claim limited range of the present invention, variations and modifications can be carried out to the present invention.

Claims (4)

1. a high pedestal jib crane security monitor platform, comprise remote terminal (1), internet (2), gateway (3), situ industrial ethernet (4) and multiple on-the-spot Sensor Network (5), described on-the-spot Sensor Network (5) comprises field instrument (6) and sensor group (7), sensor group (7) comprises multiple sensor, each sensor carries out Data Detection to the project of quantitative detection and qualitative detection respectively, described sensor group (7) is connected with field instrument (6) by Modbus/RS485 network, field instrument (6) can to the detection data of each sensor in sensor group (7) according to priority orders successively Real-time Collection, image data is carried out pretreatment and packs by described on-the-spot Sensor Network (5), then via Industrial Ethernet (4) gateway (3), internet (2) reaches remote terminal (1), the monitor supervision platform of remote terminal (1) can be monitored in real time to the data on field instrument (6), analyze, store and report to the police.

2. monitor supervision platform as claimed in claim 1, it is characterized in that, each sensor in described sensor group (7) is connected in the mode of fieldbus with field instrument (6), and the Physical layer of on-the-spot Sensor Network (5) adopts RS485; Described field instrument (6) adopts industrial panel computer or embedded industrial computer.

3. monitor supervision platform as claimed in claim 1, it is characterized in that, the communication protocol of described Industrial Ethernet (4) is Modbus/TCP, Modbus/TCP communication protocol Physical layer and data link layer are based on ethernet standard agreement, network layer and transport layer adopt ICP/IP protocol, application layer all adopts Modbus application layer Message Protocol, and is realized on TCP/IP by Modbus according to GB/T 19582.3-2008.

4. monitor supervision platform as claimed in claim 1, is characterized in that, the real time data priority of qualitative detection is higher than the real time data quantitatively detected.