At CZPT Industry, we use the latest machining technology with a wide range of capabilities to meet your demands. Our manufacturing facilities include 3-5 axis milling, lathes, grinding, etc, and state of the art metrology. With these machines, we produce complex parts in the most efficient and accurate way. Our manufacturing capabilities allow
us to develop your part from prototype to mass production for the most precise of jobs.
|Processing Method||CNC Milling, CNC Turning, Turning-Milling Machining, Micro Machining, Grinding, Boring, Tapping.|
|Material||Stainless Steel, Alloy Steel, Carbon Steel, Free-cutting Steel, Brass, Copper, Aluminum, POM, PTFE.|
|Finish Treatment||Polishing, Sand Blasting, Anodizing, Zinc Plating, Nickel Plating, Blackening, QPQ, Painting, etc..|
|Tech. Standard||ANSI, ASTM, DIN, JIS, BS, GB, ISO, etc..|
|Application||Medical, Aerospace, Millitary, Instrument, Optics, Food Equipment, AUTO Parts, Furniture, etc..|
Precision Machining is the most important sector in CZPT Industry, we have been a trusted manufacturing supplier in this field for over 15 years. We have built an impeccable reputation on quality, customer service and utilizing state-of-the-art equipment. Our expertise has made us the Best in Quality and Innovation.
|Equipment Description||Workpiece Dimensions||Processing Accuracy||Quantities||Brand|
|3-axis machining center||Max. 1000 x 1200mm||+/-0.01mm||6||DMG|
|4-axis machining center||Max. 1000 x 1500mm||+/-0.01mm||4||DMG|
|5-axis machining center||Max. 1000 x 1500mm||+/-0.01mm||2||DMG|
|CNC lathe||Max. diameter 100mm||+/-0.01mm||20||SMTCL|
|General lathe||Max. diameter 500mm||+/-0.05mm||2||SMTCL|
|Turning-Milling machine||Max. diameter 100mm||+/-0.01mm||6||DMG|
|Longitudinal lathe||Max. diameter 30mm||+/-0.01mm||6||TSUGAMI|
|Automatic lathe||Max. diameter 20mm||+/-0.02mm||30||TY|
|CNC Swiss Lathe||Max. diameter 20mm||+/-0.01mm||6||TSUGAMI|
Other assist equipments include:
Milling machine, Drilling machine, Centerless Grinding machine, External Cylindrical Grinding machine, etc.
Vernier Caliper, Micrometer, Height Gage, Hardness Tester, Two-dimensional image measuring instrument, TESA Micro-Hite 300, Mitutoyo surface Roughness Tester,
Mitutoyo CMM and Ultrasonic Cleaner.
Q1: Are you a trading company or a manufacturer?
Q2: How long is your delivery time?
Normally, the samples delivery is 10-15 days and the lead time for the official order is 30-45 days.
Q3: How long will it take to quote the RFQs?
Normally, it will take 2-3 days.
Q4: Do you provide samples?
Yes, the samples will be free if the cost is not too high.
Q5: Which countries are your target markets?
America, Canada, Europe, Australia and New Zealand.
Q6: Do you have experience of doing business with overseas customers?
Yes, we have over 10 years exporting experience and 95% of our products were exported to overseas market. We specialized in the high quality OEM parts, we are familiar with the standard of ANSI, DIN, ISO, BS, JIS, etc..
Q7: Do you have reference customers?
Yes, we have been appointed as the supplier of Parker(USA) since 2012. “Supply the top quality precision machined parts” is our management philosophy, ON TIME and EVERYTIME.
|Certification:||CE, RoHS, ISO9001|
|Standard:||DIN, ASTM, GB, JIS, ANSI, BS|
|Application:||Metal Processing Machinery Parts|
What Is a Coupling?
A coupling is a mechanical device that links two shafts together and transmits power. Its purpose is to join rotating equipment while permitting a small amount of misalignment or end movement. Couplings come in a variety of different types and are used in a variety of applications. They can be used in hydraulics, pneumatics, and many other industries.
Coupling is a term used to describe a relationship between different modules. When a module depends on another, it can have different types of coupling. Common coupling occurs when modules share certain overall constraints. When this type of coupling occurs, any changes to the common constraint will also affect the other modules. Common coupling has its advantages and disadvantages. It is difficult to maintain and provides less control over the modules than other types of coupling.
There are many types of coupling, including meshing tooth couplings, pin and bush couplings, and spline couplings. It is important to choose the right coupling type for your specific application to get maximum uptime and long-term reliability. Listed below are the differences between these coupling types.
Rigid couplings have no flexibility, and require good alignment of the shafts and support bearings. They are often used in applications where high torque is required, such as in push-pull machines. These couplings are also useful in applications where the shafts are firmly attached to one another.
Another type of coupling is the split muff coupling. This type is made of cast iron and has two threaded holes. The coupling halves are attached with bolts or studs.
The coupling function is an incredibly versatile mathematical tool that can be used in many different scientific domains. These applications range from physics and mathematics to biology, chemistry, cardio-respiratory physiology, climate science, and electrical engineering. The coupling function can also help to predict the transition from one state to another, as well as describing the functional contributions of subsystems in the system. In some cases, it can even be used to reveal the mechanisms that underlie the functionality of interactions.
The coupling selection process begins with considering the intended use of the coupling. The application parameters must be determined, as well as the operating conditions. For example, if the coupling is required to be used for power transmission, the design engineer should consider how easily the coupling can be installed and serviced. This step is vital because improper installation can result in a more severe misalignment than is specified. Additionally, the coupling must be inspected regularly to ensure that the design parameters remain consistent and that no detrimental factors develop.
Choosing the right coupling for your application is an important process, but it need not be difficult. To find the right coupling, you must consider the type of machine and environment, as well as the torque, rpm, and inertia of the system. By answering these questions, you will be able to select the best coupling for your specific application.
A coupling is a device that connects two rotating shafts to transfer torque and rotary motion. To achieve optimal performance, a coupling must be designed for the application requirements it serves. These requirements include service, environmental, and use parameters. Otherwise, it can prematurely fail, causing inconvenience and financial loss.
In order to prevent premature failure, couplings should be properly installed and maintained. A good practice is to refer to the specifications provided by the manufacturer. Moreover, it is important to perform periodic tests to evaluate the effectiveness of the coupling. The testing of couplings should be performed by qualified personnel.
editor by CX 2023-04-21