Hydraulic Pumps for Tensioning Devices Quality Specification
Hydraulic Pumps for Tensioning Devices (2200 bar)This document is valid for existing engine types on order as of the date of this docu-ment:Engine types: K80ME-C, L80ME-C, S80ME-C, K90ME-C, K90ME, L90ME-C, S90ME-C, K98ME-C, K98MEScope and Field of ApplicationThis specification applies to an air driven hydraulic pump that is designed to operate hydraulic tensioning devices for tightening of nuts on MAN B&W engines with a tightening pressure of 2200 bar.The pump to be used for the above purpose must as a minimum comply with this Quality SpecificationThis specification has been prepared to secure a defined quality of the pump for operating hy-draulic tensioning devices, i.e. providing the cor-rect tensioning force in the stud to tightened1. Design criteria 1.1. Easy to handle It must be equipped with handles so it is easy to move around by hand and by crane. 1.2. Weight The total weight with empty tank may not exceed 30 kg. 1.3. Cabinet A solid cabinet, which is able to withstand a drop from 1 m. The pressure gauges are not included in this test. 2. Medium 2.1. Oil Hydraulic oil or lubrication oil. The pump must be prepared for vegetable-oil and hydraulic oil for food and drug industry. 2.2. Hydraulic pressure Working pressure: min 3500 bar at 7 bar air pressure. Minimum pressure range: 0-3500 bar. Automatic pressure stop: 2650 bar. 2.3. Power supply Clean air. Airflow supply min.: 100 l/min at 7 bar. 2.4. Pump capacity Min. oil tank capacity: 6 litre. 3. Control requirement 1. Handle for controlling the air inlet-pressure with clear on/off inscriptions. 2. Handle for controlling the hydraulic outlet-pressure with clear on/off inscriptions. 3. Pressure release handle with clear inscriptions.4. Oil pressure gauge 1. A gauge with an inscription: Oil Pressure. 2. With the accuracy of min. 1% of max. pressure or ± 40 bar. According to Class Kl. 1.0 in DS/EN837-1. 3. Scale area and scale graduation: 4000/50 bar. 4. Min. pressure gauge diameter: 160 mm. 5. Type: Manometer. Incl. vibration damper and safety glass.5. Air pressure gauge 1. Scale area and scale graduation: 10/1.0 bar. 2. Min. pressure gauge diameter: 40 mm. 3. Type: Manometer.6. 7. Lifetime requirementMin. 100 hours lifetime under normal working pressure condition.7. 8. Connections requirement 7.1. Air connection: ISO 228/1-G1/2 with a ¼” reduction.7.2. Oil connection: ISO 228/1-G1/4 type: CEJN quick coupling 10.125.1203(female) with Working Pres-sure 2500 bar.9. Instruction manual In the instruction, there must be found descriptions of the following points in a precise and clear language. 1. Description of the pump. 2. How to use it in a safe way. 3. Connections to the air-supply. 4. Connections to the hydraulic jack. 5. Procedure for checking of the automatic pressure stop valve inside the pump. 6. Who to contact in case of malfunction of the pump. 7. What to take care of and what not to do. 8. Diagram. 9. Spare part list. DetailSpare parts for marine diesel engines
With the development of the shipping industry, marine diesel engines have become the main energy source for modern shipping. In order to ensure the safety and smooth operation of the ship, the spare parts of the marine diesel engine must meet certain requirements. The main contents of the spare parts requirements for marine diesel engines include the following aspects:1. Quality requirements: Spare parts for marine diesel engines must meet national or international quality standards to ensure the performance and reliability of spare parts.2. Adaptability requirements: Spare parts must be compatible with the model and specification of the marine diesel engine to ensure that the spare parts can completely replace the original parts and have the same performance and service life.3. Reliability requirements: Spare parts must be able to operate normally in the harsh marine environment and maintain long-term stability and reliability.4. Supply guarantee: There must be a stable supply channel for spare parts to ensure that spare parts can be delivered to ships in a timely manner and replaced quickly when necessary.5. Technical support: Spare parts suppliers must provide timely technical support and after-sales service to ensure that spare parts can be installed and debugged correctly, and solve problems that arise during use.When selecting spare parts for marine diesel engines, the shipowner and the shipowner's representative should choose suitable spare parts based on the actual situation and needs of the ship, comprehensively considering the price, quality, supply cycle, technical service and other factors of the spare parts, and sign a contract with the spare parts supplier. Strict supply contract to ensure the quality and delivery time of spare parts.In a word, marine diesel engine spare parts are an indispensable part of ship operation and play a vital role in the safety and normal operation of the ship. When purchasing and using spare parts, strict requirements and standards must be met to ensure that the spare parts can run stably and reliably on the ship for a long time.Our products: Cylinder Cover hydraulic tools,Fuel Valve Test Device,Air-Driven High Pressure Pump,Hydraulic calibration pump,2- and 4-stroke diesel engines spare parts, DetailQuality Regulations for Pneumatic Hydraulic Pumps
Quality Regulations for Pneumatic Hydraulic Pumps Hydraulic pump for tensioning device-pneumatic hydraulic pumpPneumatic hydraulic pump modelAHP3500The scope of application of this specification:Air driven hydraulic pump designed to operate nut tightening pressure to 2200 bar.ForK80ME-C, L80ME-C, S80ME-C, K90ME-C,K90ME, L90ME-C, S90ME-C, K98ME-C, K98MEPumps used for the above purposes must comply with this quality specification1. Design Standards1.1 The total weight of the product must not exceed 30 kg. (except built-in hydraulic oil)1.2 The fuel tank must be strong enough to withstand a 1-meter drop, pressure gauge not included.2. use mediumHydraulic oil or lubricating oil. The pump must be prepared for vegetable and hydraulic oils used in the food and pharmaceutical industries.3. Hydraulic pressureWorking pressure: 3500 bar at 7 bar air pressure.Pressure range: 0-3500 bar.Automatic pressure stop: 2650bar.The air flow must be greater than: 100 l/min.Fuel tank volume greater than 6 liters4. Appearance1. The handle for controlling the intake pressure is clearly written.2. The handle for controlling the hydraulic outlet pressure is clearly written.3. Pressure relief handle with clear writing.4. Oil pressure gauge1. Lettering: oil pressure (or working pressure gauge)2. The pressure value is plus or minus 40 bar3. Scale: 4000/50 bar.4. Pressure gauge diameter: 160mm5. Type: Shockproof pressure gauge (shockproof fluid must be silicone oil)6. Air pressure gauge1. Scale: 10/1.0 bar.2. Pressure gauge diameter: less than 100mm; greater than 40mmService life: The service life is not less than 100 hours under normal working pressure.7. Air connection requirements:ISO 228/1-G1/28. Oil pressure connection requirements:ISO 228/1-G1/4 type: CEJN quick coupling 10.125.1203 (female), working pressure 2500 bar.9. Requirements for instructions1. Description of the pump.2. How to use it safely.3. How to connect the air supply system.4. How to connect to the hydraulic jack.6. Contact information of the after-sales service provider.7. Spare parts list DetailCylinder Crane Operation Of Marine Diesel Engine
Cylinder Crane Operation Of Marine Diesel EngineWith the use of small size, high power, high cooling circulating water temperature and high-quality sealant in modern ship mainframes, the working cycle of hanging cylinders and pulling cylinder liners is greatly extended.This is very beneficial to improve the power and safety of ships, and is an inevitable trend to reduce operating costs and improve economic benefits.But it also brings new issues and new requirements to maintenance managers.Analysis of the Reasons for Difficulty Opening the Cylinder HeadAs long-stroke DC scavenging type models are widely used at present, most models, especially MAN models, have the cylinder head inserted into the upper part of the cylinder liner, and the seal between the cylinder head and the circulating cooling water of the cylinder liner is made by special rubber To be done.In order to increase the reliability of the seal, the clearance between the cylinder head and the sealing surface of the cylinder liner should be as small as possible.As long as the safety regulations for the maximum expansion coefficient can be met.Under normal circumstances, there is no difficulty in lifting the cylinder and pulling the cylinder liner.However, due to some reasons (such as not testing according to the requirements, putting water treatment agent; sometimes encountering the backflow of seawater into the cooling system, such as the failure of the heat exchanger of the water generator, etc., the quality of the water will be poor. High water quality; poor water quality in some port areas, etc.), can make the cooling water in the system, especially in the small gap, large thermal conductivity, high water temperature, precipitation of solid sludge, scale and other substances.It is especially serious in the sealing section between the cylinder head and the cylinder liner of the main engine, and the cylinder liner and the cylinder block.Because the gaps in these places are small (some models are only tens of wires), the heat transfer there is faster and the relative temperature is higher, so there are more solids precipitated in the circulating water.It is tightly wrapped with the sealing order. In addition, since the circulating water there is relatively static, it is the accumulation place of solid sediments.Over time, the sediment will accumulate more and more, which will not only affect the heat dissipation, but also make the sediment harden, and also cause the premature aging of the rubber seal, which will gradually lose its elastic force, which will cause the cylinder head to be opened when the cylinder is lifted. , pulling the cylinder liner, etc. to increase the resistance, making it difficult to open the cylinder head, especially on some old ships and ships with poor management.Under normal circumstances, there is no difficulty in lifting the cylinder and pulling the cylinder liner.However, due to some reasons (such as not testing according to the requirements, putting water treatment agent; sometimes encountering the backflow of seawater into the cooling system, such as the failure of the heat exchanger of the water generator, etc., the quality of the water will be poor. High water quality; poor water quality in some port areas, etc.), can make the cooling water in the system, especially in the small gap, large thermal conductivity, high water temperature, precipitation of solid sludge, scale and other substances.It is especially serious in the sealing section between the cylinder head and the cylinder liner of the main engine, and the cylinder liner and the cylinder block.Because the gaps in these places are small (some models are only tens of wires), the heat transfer there is faster and the relative temperature is higher, so there are more solids precipitated in the circulating water.It is tightly wrapped with the sealing order. In addition, since the circulating water there is relatively static, it is the accumulation place of solid sediments.Over time, the sediment will accumulate more and more, which will not only affect the heat dissipation, but also make the sediment harden, and also cause the premature aging of the rubber seal, which will gradually lose its elastic force, which will cause the cylinder head to be opened when the cylinder is lifted. , pulling the cylinder liner, etc. to increase the resistance, making it difficult to open the cylinder head, especially on some old ships and ships with poor management.Diesel Engine Maintenance ToolsFuel Valve Test Device2-STROKE DIESEL ENGINE DetailHydraulic Pumps
Hydraulic Pumps Hydraulic Pumps, Hand Operated (2200 bar)This document is valid for existing engine types on order as of the date of this docu-ment:Engine types:All ME/-C engines with 2200 bar hydraulic tool system.Scope and Field of ApplicationThis specification applies to hydraulic hand op-erated pumps designed for emergency opera-tion of hydraulic jacks for MAN Diesel & Turbo engine types ME/-C with 2200 bar hydraulictool system.The pump to be used for the above purpose must, as a minimum, comply with this QualitySpecification.This specification has been prepared to ensure a defined quality of the pump for emergencyoperation of the hydraulic jacks, e.g. if the pneumatic pump or the compressed air systemonboard is failing.1. Scope and field of applicationThis Quality Specification applies to hydraulic hand operated pumps designed for emergencyoperation of hydraulic jacks for MAN Diesel & Turbo engines types ME/-C with 2200 bar hydraulic tool system.The pump to be used for the above purpose must, as a minimum, comply with this Quality Speci-fication.This Quality Specification has been prepared to ensure a defined quality of the pump for emer-gency operation of the hydraulic jacks, e.g. if the pneumatic pump or the compressed air system onboard is failing.2. Design criteria2.1. Pump requirementsThe pump unit must be of a hand operated 2-stage type with pressure gauge and integrated tank.Maximum weight: 15 kg (empty tank). DetailHigh Pressure Pump Unit Manufacturers
High Pressure Pump Unit ManufacturersHigh Pressure Pump Unit Manufacturers:AILESEN(CHANGZHOU)POWER TECHNOLOGY CO.,LTDModel:AHP2500Technical Data:OUTPUT PRESSURE(Bar)2250TANK CAPACITY(L)APPROX.6 LITRESMAX,FLOW AT NO PRESSUREAPPROX. 0.45 LITRES/MIN.AT 8.0 BAR AIR INPUTAIR ACCESS PORTISO 228/1-G1/2HIGH-VOLTAGE OUTPUTISO 228/1-1/4 DetailFeatures of FUEL VALVE TEST PUMP UNIT
Features of FUEL VALVE TEST PUMP UNITThis paper mainly describes the function of the marine fuel injector test bench. Model HDP1100-D2This product has the advantages of high power, small size, compact structure and easy operation.It is used in modern high-power marine diesel engines to measure the spray status of their injectors. It is a must for high-power diesel engines.Inspection tool. Suitable for B&W low speed diesel engine 35-98HDP1100-D2 injector test bench adopts imported digital display and pressure sensor, which can accurately and quicklyCollect test data about the injector. So that the user can know the situation of the injector.This machine mainly tests the four functions of the injector:1. The opening pressure of the injector.Second, the injector discharge pressure.3. The atomization status of the injector. (This feature is not recommended)Fourth, the sealing test. DetailAIR DRIVEN HYDRAULIC PUMP
AIR DRIVEN HYDRAULIC PUMPHi!This is an AIR DRIVEN HYDRAULIC PUMP, I believe you are very familiar with this pumpThis pump is heavily used in the marine industry. Now this pump has been modularized for a long time, and the quality and price have been greatly improved. More than 100 units are sold to countries all over the world every year.Currently we are looking for quality distributors all over the world. Email us if you are interested. Please believe that we will give you the best price. DetailMarine medium and low speed diesel engine hydraulic bolt tensioner
Marine medium and low speed diesel engine hydraulic bolt tensionerEngine maintenance requires some special tools designed during engine development. Different engine configurations and different applications require different hydraulic special tools. Therefore, the supplied standard hydraulic bolt tensioner set is configured to meet the basic requirements of maintenance. The rest of the tools can be ordered through our service station or directly from the engine factory.All diesel hydraulic bolt tensioners only accept customized. DetailAir-Driven High Pressure Pump-AHP2500 Currently Only Available: $1000
Air-Driven High Pressure Pump AHP2500The various control instruments and maneuvering handles arefitted with a number.these numbers are mentioned in this instructionand are also referring to the numbers found on the drawings showingthe complete pump unit.Furthermore,these numbers are found on the instrument panel of thepump unit Please,read this direction of use carefully before usingthe pump unit and follow the instructions given very carefullyof theworking principles of the pump unit(Note: Be sure to fill up with oil before using)Note: This device is suitable for use with a single hydraulic toolBEFORE CONNECTING THE PUMP UNIT:The tank is filled with oil through the filler cap(6)in the rightside of the top panel.Oil;Any good hydraulic oil may be used.a ) Open oil return valve(1)by turning anti-clockwise.b ) The handle of the regulator valve(3)should be turned 4-5turns anti-clockwise.This is done to avoid the pump starting at atoo high pressure level.c )Stop valve(2)should be turned clockwise,to close thevalve.This is done to ensure that the pump will not work at will when the primary pneumatic system is connectedCONNECTION OF PUMP:Compressed air is led through a flexible hose and is connected to the stud marked"air inlet"(7)on the right side of the cabinet.This stud has an1/2B.S.P.female thread. The hydraulic system is connected to the stud marked"high pressure outlet"(8)found on the left side of the cabinet.This stud has a 1/4B.S.P.female thread.The pump is now ready for use.The pump may also be operated by hand if compressed air is not available.A handle(9) is placed in a retainer on the top panel.It may easily be fitted to the pump through the slot in the slot in the left side plate by pressing it into the bushing found inside the slot.START OF PUMP:a )Stop valve(2)is turned slowly anti-clockwise,whereby compressed air enters into the pump unit,whichcommences to work.The stop valve(2)is also acting as a regulator valve for the pumping speed.b )The regulator valve(3),which is used for adjusting thepressure is now turned clockwise and the hydraulic pressure may now be read on the manometer for pressure control(4).This manometer shows the hydraulic high pressure in bar.c )The oil return valve(1)is closed by turning the knob clockwise and the oil will then run from the oil tank into the hydraulic system.When the hydraulic system has been filled,and the pump has stopped operating,the high pressure reached can be read at the manometer for workingpressure(5)found on the left side of the instrument panel.The pump stops automatically,when the required high pressure has been established and holds it infinitely.The Pump starts automatically again if a pressure drop occurs in the hydraulic system.d )High pressure may be removed from the system by the opening the oil return valve(1)(to be turned anti-clockwise).The excessive oil in the secondary high pressure system will thereby return to the oil tank in the pump unit.ENDING OF JOB:To avoid oil spillage,precautions should be taken to see that the Oil is taken back into the oil tank before the connections on the high pressure side are disconnected.This is done by turning the oil return valve(1)anticlockwise.Simultaneously the pump should be stopped by turning the stop valve(2)clockwise,and when this valve has been closed,the air hose may be removed and the pump transferred to another job.Air-Driven High Pressure Pump-AHP2500Currently only available: $1000 (Adjusted according to exchange rate fluctuations)Welcome to purchaseYou can contact us by email Detail