Warranty: 1 several years
Customized support: OEM, ODM
Model Variety: SSC10-11
Variety: Hydraulic Jack
Min Top: forty four mm
Max Height: 55 mm
Ability (Load): 1-10T
Ability: 10Ton / 101KN
Max. Pressure: 70 Mpa / seven-hundred Bar
Certificates: CE ISO 9001
Excess weight: 1.4kg
Packaging Specifics: Picket package box
1 Yr Warranty AND Exceptional SERVICE7 Days REFUND PAYMENT IN Circumstance OF QUALITY24 Several hours Effortlessly COMMUNCIATION Products Description Capacity: ten-150tonStroke: 11-16mmMax.stress: 700bar SSC Series, Solitary-Performing Minimal Flat Hydraulic Ram Single-acting, spring return.Flat design used in confined spaces.No saddle needed with grooved plunger end.Two plunger threads on grooved plunder end for particular wants.Special painted surface to boost corrosion resistance.Simple carrying with handles on some versions (Ability in excess of 75tons).All versions consist of swift coupling and dust cap.Customizable with specific prerequisite. All SAIVS hydraulic torque wrenches go with calibration certificates, Big Torque Can Be Tailored, Remember to Make contact with Us! Particulars Photographs Software Recommend Merchandise Firm Profile Proven in HangZhou, China, SAIVS started as a maker and exporter of diverse kinds of casting and precision CNC machining factors, industrial custom-made elements. SAIVS has the encounter to create hundreds of tooling and fixtures in property according to customers’ High high quality and resilient exterior gear slewing bearing for development machinery drawings. In 2002, hydraulic resources study section was settled and organization created its very first line of hydraulic tools and equipment. Today SAIVS is reckoned as 1 of the most desired experienced maker and exporter of hydraulic tools, hydraulic pumps & hydraulic elements in the industrial market. We have a lot more than 200 employees overall, that operate at casting foundries, CNC machining plant. we have nice track record in parts supply chain, as we have far better management system, constructive teamwork cooperation and advanced tools. We acquired certificates of TS16949, ISO9001, ISO14001 and OSHAS ISO 18001. Item packaging FAQ Q: Are you investing firm or manufacturer?A: We are manufacturing unit with much more than 20 a long time expertise.Q: How long for supply?A: Normally it is fifteen-30days as we are tailored services we validate with consumer when location order.Q: What is the MOQ?A: It relies upon on what you are acquiring. Usually, RA16013 Cross Roller Bearing RA16013UUCC0 Substantial precision rotary table bearing our minimum purchase is 1 20’ full container and LCL container (significantly less than acontainer load) can be suitable.Q: Can you customise my goods?A: Sure, we can custom-made merchandise with your style drawings like DWG, DXF, DXW, IGES, Action, PDF and so on.Q: What is your conditions of payment?A: 30% T/T in advance, harmony ahead of shipment, or as per dialogue. Q: What about your quality manage?A: * . Examining the uncooked materials after they reach our factory—–Incoming top quality manage(IQC)* . Examining the specifics before the generation line operated* . Have total inspection and routing inspection throughout mass production—-In-approach high quality control(IPQC)* . Checking the goods after they are finished—-Ultimate high quality management(FQC)* . Examining the products after they are finished—-Outgoing high quality handle(QC)* . 100% inspection and supply before shipment
What Are Hydraulic Cylinders?
Basically, a hydraulic cylinder is a mechanical actuator which is used to provide unidirectional force. This type of cylinder is found in many different applications, such as in elevators, construction machinery, and civil engineering.
Among all the components that make up a hydraulic cylinder, the piston rod is one of the most important. This part is a round chrome-plated steel bar that moves in a reciprocating motion.
In order to make this part perform properly, the manufacturer has to take care of several factors. This includes a proper analysis of the rod size. It is important to ensure that the diameter of the rod does not exceed the maximum bore size. This will avoid the situation where the rod will bend.
Another major hazard of the piston rod is buckling resistance. The amount of buckling resistance is influenced by the buckling load. The buckling load is generally calculated using Euler’s equation. The equation assumes that a compressive load is applied axially at the center of gravity. The load is also affected by the number of laminate layers.
A good way to measure the magnitude of the buckling load is to consider the number of laminate layers in the steel. The higher the number of laminate layers, the higher the buckling load.
There are many seal types available for the piston rod. A good seal will be able to work under intense pressure, but it must also be durable. The materials used to make the seals vary depending on the application.
A good seal will also prevent fluid from leaking into the cylinder. The seal must also be able to handle multiple rod movements.
Using the right piston seals for hydraulic cylinders is important for ensuring that the cylinders maintain the proper pressure and performance. These seals are available in a variety of materials and designs. Choosing the right seal can boost performance and lower costs of ownership.
There are two main categories of piston seals. These include dynamic and static seals. The dynamic seals are used in applications that have motion, while the static seals are used in applications that have no relative movement. The lubrication properties of the seal can also affect its life.
The materials used to manufacture the seals depend on the application and cylinder’s specifications. These seals are made from a variety of different materials, including plastics. These materials can offer higher temperatures and chemical properties, while still meeting the mechanical property requirements.
These seals are available in a variety of different designs, including single-acting and symmetrical designs. They are usually manufactured in polytetrafluoroethylene (PTFE). The material offers exceptional resistance to wear and tear, as well as high temperature performance. The seal’s surface properties are also important.
The dynamic seal is subject to radial movement when pressurized. This motion can be rotary, oscillating, or translatory. These seals must maintain a balance between sealing force and friction to ensure optimum performance.
The piston seals for hydraulic cylinders also have a function of preventing fluid from bypassing the piston. These seals are positioned inside the cylinder head, and are used to keep the sealing contact between the piston and cylinder bore.
Whether it is to pull merchandise off a conveyor belt, lift something off a dredging vessel or control the boom of a TLB, double-acting hydraulic cylinders are used to move objects. They provide stronger, more versatile and more precise control than single acting cylinders. They also offer more design options.
Double-acting cylinders are available in a wide range of sizes, shapes, and materials. There are also a variety of designs that include hollow plunger and high tonnage models. Each model offers a unique set of benefits for different applications.
Double-acting hydraulic cylinders are built with highly-precision dual ports to extend the lifetime of the product. They can also be equipped with position sensors to improve stroke control. These systems can also provide feedback to the controller to adjust piston movements.
The most important characteristic of a hydraulic cylinder is its ability to provide force in both directions. To do this, the cylinder alternates cycles of pressurized fluid between the pistons. The two ends of the pistons are connected with a piston rod, which extends or retracts when the desired pressure is achieved.
The cylinder also has a clamping structure. This prevents particles from entering the interior of the cylinder. Depending on the application, the clamping application can pull the workpiece into place or push it into a conveyor belt.
The best application for a double-acting hydraulic cylinder is to control the movement of a machinery. This is especially important for applications that require a large amount of power.
Choosing the right type of foot mounting for hydraulic cylinders can make all the difference in the performance of your machinery. Using the wrong type can cause cylinders to bind, or even buckle, which can lead to early equipment failure. Choosing the right type of mount can also save you money in the long run.
The best way to choose a foot mount for hydraulic cylinders is to consider your application and operating environment. For example, a fixed mount may not be the best choice if you have a tight space. A pivot mount on the other hand, may not be the best option if your application requires a constant change in alignment. However, a pivot mount may be a great choice if you are actuating loads that are able to move through an arc.
A single lug mount can provide the best performance for the money. Using a single lug mount is a good idea if you are working in a tight space and have a tight budget. It is also a good idea to opt for a flange mount if your application requires a heavy column load for long strokes.
The most important thing to remember about the right type of foot mounting for hydraulic systmes is that it’s a cinch to remove it once the application is complete. There are several different types of foot mounts on the market, ranging from a simple threaded stud mount to a threaded bolt mount.
Basically, hydraulic cylinders convert incompressible hydraulic fluid energy into work. They are used in various applications like forestry, manufacturing, construction and mining. Hydraulic cylinders are available in different types. The most common type is the single-acting cylinder.
Single-acting cylinders are divided into spring-extend and spring-return cylinders. The former is generally used in manufacturing plants. The latter is mainly used in automation plants. The most common type of single acting cylinder is the spring-return cylinder.
The most important factor in choosing a hydraulic cylinder is the frequency of use. A cylinder with a larger bore and a longer piston rod has the potential to provide greater force transfer. It also has the capability to produce accurate changes in pressures.
When a cylinder is used in mobile equipment, it is very important that the extension and retraction speeds are consistent. This ensures that the working cycle is not compromised. It is also important to understand that a single-acting cylinder produces more force in the retraction motion than the extension motion.
An additional factor to consider is the amount of piston rod extension. A cylinder with a longer piston rod will allow for precise changes in pressures and balances. In addition, it will also make the cylinder more stable.
The cylinder also uses an internal spring to control the fluid. A steel ring and seal also provide stability. The cylinder’s piston rod can also be extended or retracted, depending on the application.
Various techniques have been developed to cushion cylinders. Cushioning reduces impact loading, which can cause distortion in the piston. It also reduces the shock wave in the hydraulic circuit, resulting in a quieter working environment. In addition, it minimizes vibrations and oscillations, which increases productivity.
The hydraulic cylinder assembly is comprised of a piston and a rod assembly. The piston rod enters the piston space through a groove on the inner or outer side of the cylinder. The piston rod then abuts against a cup, which is filled with a seal. The cup acts as a cushion, which restricts the flow of the hydraulic fluid. The pressure drop of the exiting fluid causes the cast iron ring to move to one side of the groove. The fluid then flows under the cast iron ring.
In addition to controlling the pressure in the hydraulic medium, cushioning means can reduce the rod velocity relative to the cylinder. However, cushioning means can also restrict the flow of fluid, which can limit the performance of the cylinder. Therefore, it is important to use cushioning means correctly.
The cushioning means should be designed at the design stage. This is important because improperly designed cylinders can cause distortion and failure. It is important to use a cushioning device that will not affect performance until the end of the stroke. In addition, it is important to perform regular preventive maintenance on the cushioning means.
editor by czh 2023-02-27