The breaker can be used in mines, can be used in tunnels, and mining buildings are fine. However, this is just the basic application of them. Do you know the high-end application of the breaker? They can go up the mountain or get into the water; they can smash the ground, or they can "fire into the fire", saying that everything can't be overemphasized. "Getting into the water", as the name suggests is: in the water There are many places where the breakers are used in the water, such as: river rock excavation/cleaning, pier/sea defense concrete demolition, seabed crushing, etc. The underwater application mentioned here, in most cases, refers to the operation of the breaker completely immersed in water. What? Yes, like the picture below, completely immersed. What are the challenges of underwater operations? The liquid enters the impact chamber and causes water pressure shock, causing serious damage to the breaker. How to solve it? The impact chamber is filled with continuous compressed air to prevent water from entering the impact chamber. In order to meet the requirements of underwater operations, the Abbott hydraulic breaker has designed a unique underwater application structure, including: Schematic diagram of “liquid-gas joint control†Underwater applications must be matched with Abbott's unique underwater application "liquid-gas joint control" package to ensure safe use! "Into the fire" is working at high temperatures Hydraulic breakers often also need to work in high temperature environments, such as cleaning, crushing steel slag tanks, ladle, and rotary furnace attachments. At the time of the breaker operation, the work object itself is in a high temperature state of 150 ° C or higher. At such high temperatures, most of the customer's concerns are focused on the severe challenges that these structural systems will face: 1. Hydraulic system circuit (contamination of overheated and superabrasive dust) 2. Hydraulic attachment seal (overheating) 3. Hydraulic oil pipe aging (leakage or burn) 4. Drill rod (high temperature loss hardness) 5. Bushing (erosion of abrasive dust) 6. Shock absorption structure (premature aging or dissolution) 7. Lubrication structure (high temperature erosion damage) High temperature super destructive power From Krupp to Aberdeen, we have more than 50 years of experience in high temperature applications, solving customer concerns in all aspects, with perfect solutions from equipment structure to application details. Can dive "swim", can "take chestnut" in the fire, can go up the mountain, can smash the ground, so "all-round" engineering good helper, with its stable performance, efficient production capacity, has won the unanimous affirmation and love of customers. Anbaituo hydraulic breakers, carrying the customers' numerous times, from product to technical service, give you a stable sense of well-being. Industrial 3D Printer,3D Printed Sand Sculpture,Rapid Manufacturing 3D Printer,Rapid 3D Sand Printing Guangdong Fenghua Zhuoli Technology Co., Ltd , https://www.fhzlprinter.com
Today, let’s talk about the high-end special applications of the breakers, how they can “get into the water†and “get into the fireâ€.
1
"compressed air" airway in the impact chamber
2
Underwater super dustproof structure
3
Underwater "air defense" function
4
Underwater "automatic lubrication" device and special bio-oil products
5
Underwater application-specific "liquid-gas joint control" kit
1
Keep a short period of time (different from the normal broken working cycle)
2
Use special lengthened drill rod
3
Use super dust-proof structure
4
Move the automatic lubrication pump to the carrier side
5
Keep hydraulic system temperature < 80 °C
6
Use compressed air to cool the hammer through a special "airway" and keep the "abrasive" dust outside the hammer
7
High temperature resistant oil return hydraulic hose
8
Special high temperature protection hammer structure, increase the high temperature resistant cover (as shown below)
Special application of Abbott hydraulic breaker