Sezione dell'albero L46A1 per alberi a torre

Specifica dei prodotti

Tipo, modello: L46A1 Sezione albero per alberi a torre

Dimensioni: 1,6 mx 1,6 mx 3 m

Materiali: Q345B

All'interno: perni, bulloni, scala, piattaforma

Processo: sabbiatura derusting,

Pittura: sotto la pittura, la pittura di mezzo, la pittura di superficie.

La nostra fabbrica produce e fornisce quasi tutte le famose gru a torre del marchio: sezione dell'albero, telaio di ancoraggio, angolo di fissaggio, adattatore e così via come buona qualità e prezzo.

Sezione dell'albero L46A1 per alberi a torre

Condivisione della conoscenza della gru a torre:

analizzare la causa del guasto del sistema idraulico di sollevamento della gru a torre e valutare la posizione del guasto

Il sistema di sollevamento idraulico della gru a torre può aumentare o diminuire la sezione standard attraverso il sollevamento e l'abbassamento della camicia a torre, in modo che la gru a torre possa aumentare o diminuire con il cambiamento dell'altezza dell'edificio, in modo da soddisfare le esigenze di trasporto verticale di edifici di diverse altezza.

Il sistema è composto principalmente da stazione di pompaggio idraulica, cilindro idraulico di sollevamento, valvola di blocco e tubo flessibile ad alta pressione.

Durante l'operazione di sollevamento della gru a torre, il sistema deve sopportare il peso di oltre 30 tonnellate della struttura superiore della gru a torre e la pressione di esercizio del sistema è superiore a 18 Mpa, che appartiene all'impianto idraulico ad alta pressione sistema.

Il sistema ha i vantaggi di dimensioni ridotte, peso leggero, potenza specifica elevata e funzionamento fluido, ma allo stesso tempo presenta gli svantaggi di una bassa efficienza di trasmissione e di difetti di facile realizzazione.

Because the hydraulic jacking system of the tower crane belongs to the pipeline circulation system with sealed pressure, the flow of oil in the pipeline, the movement of parts inside the hydraulic components and whether the seal is damaged are not easy to be detected, so it is difficult to analyze the cause of the fault and judge the fault part.

L46A1 Mast Section For Tower Crane Masts

In the tower crane jacking operation, according to the pressure, speed, movement and other abnormal conditions, it can be found that the hydraulic jacking system efficiency decreases, but the whole system cycle is closed.

There are many components, to determine the fault parts according to the phenomenon of a test, elimination, time-consuming and laborious; And in the case of loading, a little inadvertently easy to cause equipment accidents.

For the sake of safety, often take the overall replacement of the hydraulic jacking system for processing. However, in the maintenance of the hydraulic jacking system, due to the lack of the weight of the superstructure of the tower crane.

The working pressure of the system is 0, and the hydraulic components are controlled by the oil pressure. After the pressure drops, it is impossible to accurately judge those components whose efficiency decreases.

In the past, the commonly used detection method is to block the two outlets of the manual directional valve, and then start the system.

By operating the manual directional valve and the overflow valve, observe the pressure gauge reading and look for the failure element according to the pressure change.

However, there is a defect in this method, only abnormal pressure can be found, while other abnormal conditions such as speed and movement cannot be checked.

Once it is put into use again, it will be found that the system is still unable to be used normally due to the failure cause not completely cleared.

L46A1 Mast Section For Tower Crane Masts

In order to accurately diagnose the cause of the efficiency decline of the hydraulic jacking system in the non-working state, it is necessary to simulate the actual working conditions and test each hydraulic component under the working pressure of the system.

According to the working principle of the hydraulic jacking system, during the jacking operation of the tower crane, the piston rod of the hydraulic jacking cylinder needs to jacking the structure above the tower crane jacket.

Therefore, the oil chamber pressure P1 of the hydraulic cylinder reaches the working pressure, and the oil chamber is connected to the oil return pipeline, and the pressure P2=0.

In system maintenance, due to lack of the upper structure of tower crane weight,  in this case, in order to make oil cavity P1 to working pressure and the oil return pipe cavity a test valve installed on the road.

By adjusting the pressure of the test valve, to improve the oil cavity pressure P2, to promote the movement of the piston rod, oil cavity pressure P1 should also subsequently rise, until working pressure is reached.

Thus the real state of the hydraulic jacking system in the tower crane jacking operation is simulated, and the purpose of testing the system without load is achieved.

There are many tower crane accidents, half of them are caused by improper disposal of the system failure, in order to avoid major equipment accidents, how to prevent the hydraulic jacking system failure has become an urgent problem to be solved.

Through the comprehensive statistics of the hydraulic jacking system faults, it is found that most of the system faults are sudden faults and wear faults, and the causes of these faults are mainly caused by hydraulic oil pollution.

The main causes of hydraulic oil pollution are water, dust and air mixed with hydraulic oil in the process of use and maintenance. Metal chips, sand grains and other impurities remaining in the system during the manufacturing process of hydraulic components

Metal abrasive grains and rust from oil tank in use of hydraulic components. Hydraulic jack-up system is a closed loop system, the pollution of hydraulic oil, through gear pump, its rigid particulate contamination could increase the relative sliding parts wear and wear of the chip with the system back to oil into the tank.

With the constant circulation of oil, more and more into the pump in the dirt, dirt particle size is more and more thin, wear for hydraulic components is more and more serious, the relative movement of parts clearance increases gradually, internal leakage, results in the decrease of system efficiency, the oil temperature rising.

Hydraulic oil is the power transmission medium of the hydraulic jacking system, which is easy to oxidize and deteriorate under the influence of temperature, pressure and pollution. Moreover.

L46A1 Mast Section For Tower Crane Masts

SYM H20/15(QTZ115)  Mast section

SYM FO/23B(QTZ145)  Mast section

SYM H25/15(QTZ145)  Mast section

SYM H25/23(QTZ180)  Mast section

YONGMAO STT153  Mast section

YONGMAO ST5515B  Mast section

YONGMAO STT133  Mast section

YONGMAO STT113  Mast section

YONGMAO ST60/15  Mast section

YONGMAO FO/23B  Mast section

YONGMAO ST55/13  Mast section

SYM R55/15(R55/15)  Mast section

SYM SP60/10(QTZ125)  Mast section

SYM SP6010(QTZ125)  Mast section

SYM SP60/13(QTZ125)  Mast section

SYM SP60/13(QTZ140)  Mast section

SYM R70/15(R70/15)  Mast section

SYM R70/15B(R70/15B)  Mast section

FO 23B

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