Hydraulic System For Mine

Hydraulic systems for mine are a specialized solution designed to meet the unique challenges faced in mining operations. This advanced hydraulic system improves underground and open pit mines’ safety, productivity, and efficiency. With its robust construction, high-performance components, and intelligent control functions, mine hydraulic systems are tailored to meet the demanding requirements of the mining industry.

Hydraulic System For Mine Parameter:

Motor Power:2.2KW
Oil Tank:80L
System Flow:59L/min

Custom Hydraulic System Model Description:

Structure Of Oil Tank:

Oil Tank Cleaning Cap:

Custom Hydraulic System:

(1)Vertical Hydraulic System

(2)Horizontal Hydraulic System

(3)Side Mounting Hydraulic System

The side mounting hydraulic pump station, that is, the oil pump device, is horizontally installed on the basis of a separate tank, and the side type can be equipped with a spare pump, which is mainly used for the system with a large mailbox capacity of 250 liters and an electric power of 7.5KW or more.

Hydraulic System for Mines Omadused:

1. Heavy-Duty Components:
   • The system integrates rugged hydraulic components, including pumps, valves, and cylinders, to withstand the harsh conditions of mining operations.
   • These components are designed with high load capacity, extended service life, and resistance to wear, corrosion, and extreme temperatures.
2. Intelligent Control Features:
   • Mine hydraulic system usually integrates advanced control technology, such as a programmable logic controller (plc) and complex hydraulic control system.
   • These intelligent features enable precise and automatic control of hydraulic functions, ensuring optimal performance and adaptation to different mining tasks.
3. Fluid Contamination Control:
   • Mining environments are prone to high dust, dirt, and other contaminants that can impact the hydraulic system’s performance.
   • The Hydraulic System for Mines incorporates effective filtration and contamination control measures, such as high-quality filters and reservoir breathers, to maintain clean hydraulic fluid and protect system components.

How To Get Air Out Of A Hydraulic System?

To remove air from a hydraulic system, commonly referred to as “bleeding” the system, follow these step-by-step instructions:

1. Preparation:
   • Ensure the hydraulic system is powered off and depressurized. This step is crucial for safety and prevents accidental movement or fluid discharge during the bleeding process.
   • Put on appropriate personal protective equipment (PPE), such as safety glasses and gloves, to protect yourself from potential fluid spray.
2. Locate Bleeder Valves:
   • Identify the bleeder valves in the hydraulic system. These valves are typically located on or near hydraulic cylinders, actuators, or components prone to air entrapment.
   • Consult the system’s documentation or manufacturer’s guidelines to locate specific bleeder valves for your system.
3. Positioning:
   • Position a suitable catch container or absorbent material beneath the bleeder valve to collect any fluid that may be discharged during the bleeding process.
4. Opening the Bleeder Valve:
   • Using an appropriate wrench or tool, slowly and partially open the bleeder valve. Take care not to fully remove the valve at this stage.
   • Opening the valve allows trapped air to escape while allowing hydraulic fluid to flow out in a controlled manner.
5. Purging Air from the System:
   • Activate the hydraulic system, typically by operating the associated machinery or actuating the components connected to the bleeder valve.
   • As the system operates, the hydraulic fluid flow will push air bubbles towards the open bleeder valve, helping to purge the air from the system.
   • Allow the system to cycle several times to ensure thorough purging of the air from the hydraulic system.
6. Fluid Discharge:
   • Monitor the fluid discharging from the bleeder valve. Initially, you may observe air bubbles, followed by a steady flow of hydraulic fluid without air.
   • Continue the bleeding process until all air bubbles are eliminated, and only a consistent flow of fluid is discharged from the valve.
7. Closing the Bleeder Valve:
   • Once air is completely purged from the system, carefully close the bleeder valve using the appropriate wrench or tool.
   • Ensure the valve is tightened securely to prevent any fluid leakage.
8. System Verification:
   • Verify the hydraulic system’s operation to ensure it functions properly without any abnormal noises, vibrations, or performance issues.
   • Monitor the system for any signs of air re-entry, such as spongy or inconsistent actuation, and repeat the bleeding process if necessary.

Tehase võimekus ja suutlikkus:

(1) Kokkupanek

Meil on esmaklassiline sõltumatu teadus- ja arendustegevuse montaažiplatvorm. Hüdrosilindrite tootmistöökojas on neli poolautomaatset tõstesilindrite koosteliini ja üks automaatne kallutussilindrite koosteliin, mille kavandatud aastane tootmisvõimsus on 1 miljon tükki. Spetsiaalsete silindrite töökoda on varustatud erinevate spetsifikatsioonidega poolautomaatse puhastusmontaažisüsteemiga, mille kavandatud aastane tootmisvõimsus on 200 000 ja mis on varustatud kuulsate CNC-töötlemisseadmete, mehaanilise töötlemise keskuse, suure täpsusega silindrite töötlemise eriseadmete, robotkeevitusmasina, automaatse puhastusmasina, automaatse silindri kokkupanemise masina ja automaatse värvimise tootmisliiniga. Olemasolevad kriitilised seadmed rohkem kui 300 komplekti (komplekti). Seadmete ressursside optimaalne jaotamine ja tõhus kasutamine tagavad toodete täpsusnõuded ja vastavad toodete kvaliteedinõuetele.

(2) Töötlemine

Töödeldav töökoda on varustatud kohandatud kallutatud rööpse treipingi keskuse, mehaanilise keskuse, kiire lihvimismasina, keevitusroboti ja muude seotud seadmetega, mis suudavad töödelda silindritorusid, mille maksimaalne siseläbimõõt on 400 mm ja maksimaalne pikkus on 6 meetrit.

(3) Keevitamine

(4) Värvimine ja katmine

Väikese ja keskmise suurusega silindri automaatse veepõhise värvipinnakattega liinide abil, et saavutada automaatne robotlaadimine ja mahalaadimine ning automaatne pihustamine, projekteerimisvõimsus 4000 tükki vahetuse kohta;
Meil on ka poolautomaatne suurte balloonide värvimise tootmisliin, mis töötab jõukettaga ja mille projekteerimisvõimsus on 60 kasti ühe vahetuse kohta.

(5) Testimine

Meil on esmaklassilised kontrolliseadmed ja katsestendid, et tagada silindri jõudlus vastavus nõuetele.

We are one of the best hydraulic system manufacturers. We can offer comprehensive hydraulic system. We also provide corresponding põllumajanduslikud käigukastid. Oleme eksportinud oma tooteid klientidele üle maailma ja teeninud hea maine tänu meie suurepärasele tootekvaliteedile ja müügijärgsele teenindusele. Me tervitame kliente kodus ja välismaal, et võtta meiega ühendust, et pidada läbirääkimisi äri, vahetada teavet ja teha meiega koostööd!