The hydraulic breaking hammer's principle and things to keep in mind while using it

Comments · 29 Views

The more general the industrial equipment is, the better, just like your home's electric tools

The more general the industrial equipment is, the better, just like your home's electric tools. Fixed booms, backhoes, skid steers, and even forklifts are all designed with specific purposes in mind. It is entirely dependent on the machine's configuration.

Excavators are one of the most adaptable pieces of machinery in this regard. Augers, compactors, rakes, rippers, and grabs can be added to the bucket for scraping or digging, in addition to the bucket itself. If a job needs to be done, the rock breaker for mini excavator, like the Swiss Army knife, may have a tool to help.

Breaking hammer (hydraulic)

Obstacles can sometimes prevent excavation from taking place as planned. Hammers / breaking hammers are used to cut large stones or existing concrete structures in industries such as mining, quarries, excavation, and demolition. Blasting can be used to remove obstacles or break through thick rock layers, but hammers allow for a more controlled process.

A hydraulic piston propels the hammer, exerting pressure on the attachment's head to deliver a powerful and consistent thrust against the obstacle. In a nutshell, it's nothing more than a massive jackhammer. It's ideal for continuous production in a small space. Breaking hammers are quieter and less vibrational than blasting hammers.

Precautions must be taken.

These powerful tools, however, must be handled with the same care and caution as any other industrial machine. During the operation, experienced operators and observers will collaborate to minimize injuries and unnecessary cracks. The hammer's / hammer's service life will be extended if you understand how the machine works.

No object or material can withstand the force of the circuit breaker when it is empty burning. As a result, the piston fires at the tool handle, but the energy is unable to be absorbed by the dead air. The impact is returned to the tool, where it interacts with other impacts before being transmitted down.

There will be a great deal of force in the middle, causing the tool to be overworked. This is where previous experience comes in handy. The operator can prevent the circuit breaker from tripping before the target component falls by anticipating the obstacle's break. This reduces the number of unattended fires while also ensuring the safety of the tools.

When is it appropriate to turn off the hydraulic hammer?

1. The hammer hose jerks back and forth.

The nitrogen energy chamber has been completely emptied if the hydraulic hammer surges abnormally. Close the tool and fix the chamber before reusing it to assess the problem.

2. The circuit breaker's tool is not knocked over.

The tool can become stuck in the bushing, making it impossible to change the visible length of the part. Stop using the circuit breaker and remove the tool to inspect the bushing if this occurs. Make sure the marks on the tool and bushing are removed or replaced if there are obvious signs of sticking. The toolholder must be lubricated and cleaned once the problem has been resolved before the tool can be reinstalled.

3. Oil leakage from hydraulics.

If the hydraulic hammer begins to leak oil while in use, it must be turned off for proper maintenance. Defective side bars or excessive bushing wear can lead to oil leakage.

4. The suspension and the rear head have a gap between them.

Of course, do not operate the hammer if there is a gap between the suspension and the rear head area. When the suspension is clear, it usually means that it needs to be repaired. Call disassembly tool service or look through the user manual to see if it can be repaired.