Product Description
Heung Kong Precision Technologies Co., Ltd. is found in HangZhou City, the core city of higher-conclude production in the ZheJiang -Hong Kong-Macao Greater Bay Spot, China. It is a professional market and trade organization concentrating on the layout and manufacture of precision metallic and plastic areas.
Heung Kong Precision Technological innovation Co., Ltd. is a collaborative innovation cooperation unit of the Innovation Center of HangZhou University of Engineering. It has nearly 10 stable and dependable associates in the Pearl River Delta, delivering buyers with competitive prices and substantial-high quality personalized item processing companies.
Our skilled staff consists of many engineers in the field of CNC machining with more than 15 many years. The organization supplies consumers with continuous and reputable services and results in price for consumers by developing a mature, secure and higher-quality provide chain.
Company deal with: No. 17, Xihu (West Lake) Dis. Road, Xihu (West Lake) Dis.cheng District, HangZhou Metropolis, ZheJiang Province
Solution & Services
| Services |
CNC Machining |
| Automatic Lathe Machining | |
|
Sheet Metallic Fabrication |
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Stamping Elements |
|
|
Surface Treatment method |
|
| Material |
Aluminum |
|
Stainless Steel, Metal |
|
|
Brass |
|
|
Copper |
|
|
Plastic |
|
| Floor treatment | Sandblasting, Anodizing Coloration, Blackenning, ZincNickl Plating, Sharpening And Brushing,And so forth. |
| MOQ | Quantity is not constrained, small buy can be recognized |
|
Drawing Format |
Step, CAD, STP, DWG, DXF, PDF, Gis, and so on Or Samples |
|
Supply Time |
five-twenty five Days, Is dependent on the quantities |
|
Tolerance |
+/- .01mm |
|
QC |
one hundred% Inspection just before shipment |
|
OEM&ODM |
We can design and style for you or generation products identical as your drawing |
CNC machining generally refers to pc digital control precision machining, CNC machining lathes, CNC machining milling devices, CNC machining dull and milling devices, and so forth.
CNC machining benefits:
one. The number of tooling is significantly lowered, and complex tooling is not essential to procedure areas with sophisticated designs. If you want to alter the shape and dimension of the element, you only require to modify the part processing system, which is ideal for new solution improvement and modification.
two. The processing top quality is steady, the processing precision is substantial, and the repeatability is high, which is ideal for the processing needs of plane.
3. The generation performance is substantial in the scenario of multi-variety and small batch manufacturing, which can reduce the time for generation preparation, machine resource adjustment and procedure inspection, and minimizes the slicing time owing to the use of the ideal chopping volume.
4. It can process complicated profiles that are hard to process by typical approaches, and even approach some unobservable processing components.
Automatic lathe is a large-performance, substantial-precision, reduced-sounds instrument-variety automatic lathe. It is an computerized processing device resource that controls the processing system via a cam (CNC is also a type of automatic lathe, listed here refers to a non-CNC automated lathe).
Rewards of computerized lathe processing:
one. Automated processing: no guide operation is required, and intricate elements can be processed simultaneously with external circle, spherical surface area, conical surface area, arc floor, stage, groove, embossing, drilling, tapping, die, slicing and other processes. It can be carried out in 1 processing.
2.Substantial control precision: the precision of the equipment instrument spindle can reach .003mm, the wonderful adjustment of the slider is managed by a micrometer, and the dimensional management precision can attain .005mm. The bare minimum slicing feed can be controlled to .005, and the roughness of the components (copper areas) can be as lower as Ra0.04-.08.
three. Automated feeding: the feeding mechanism immediately feeds the major shaft, and the device routinely stops and alarms when the content is finished, and the processing process does not demand manual viewing of the materials, attaining a fully automatic production process. 1 operator can work multiple machines at the very same time.
four. Substantial manufacturing efficiency: a machining process is completed for every single revolution of the cam. Several instruments can be cut at the exact same time, the processing effectiveness is extremely substantial, and the processing effectiveness has the positive aspects that CNC cannot match.
Sheet metal processing is named sheet metal processing. Sheet steel components are thin-plate hardware components that can be processed by stamping, bending, stretching and other means.
The major procedures are:
Pressure riveting, expanding riveting, pulling mother, pulling riveting, riveting, chamfering, bending, forming, reducing, blanking, blanking, punching, punching convex hull, punching and tearing, punching, tapping, leveling , Again tooth, drilling, chamfering, punching, countersinking, flattening, punching mesh, reaming.
The components typically employed in sheet metallic processing are chilly-rolled sheet (SPCC), sizzling-rolled sheet (SHCC), galvanized sheet (SECC, SGCC), copper (CU), brass, crimson copper, beryllium copper, aluminum sheet (6061, 5052 , 1571, 1060, 6063, duralumin, etc.), stainless steel (SUS301, SUS304).
Stamping processing is the manufacturing technologies of solution components with particular condition, measurement and overall performance by indicates of the energy of traditional or special stamping equipment, so that the sheet metal is immediately subjected to deformation drive in the mold and deformed. It is 1 of the principal strategies of plastic doing work (or press operating) of metals.
Positive aspects of stamping processing:
1.The production performance of stamping processing is high, and the procedure is practical, and it is simple to understand mechanization and automation. The quantity of strokes of common presses can attain dozens of occasions for every minute, and the higher-velocity stress can attain hundreds or even countless numbers of moments for each minute, and 1 punching piece might be received for each stamping stroke.
2. Because the die makes certain the measurement and form precision of the stamping areas, and normally does not hurt the surface good quality of the stamping areas, and the lifestyle of the die is typically prolonged, the good quality of the stamping is stable and the interchangeability is very good.
3. Stamping can method areas with a vast selection of sizes and complicated styles, these kinds of as stopwatches as tiny as clocks, as massive as vehicle longitudinal beams, covering elements, etc., in addition the chilly deformation hardening influence of the substance during stamping, the toughness and stiffness of stamping are larger.
four. Stamping typically does not make chips and scraps, consumes considerably less substance, and does not demand other heating gear, so it is a materials-saving and power-conserving processing method, and the price of stamping elements is minimal.
Floor treatment is a method of artificially forming a area layer with different mechanical, actual physical and chemical qualities of the substrate on the area of the substrate.
The goal of floor treatment is to meet the corrosion resistance, use resistance, decoration or other special purposeful needs of the merchandise.
The most frequently utilized surface treatment method processes are:
Anodizing, electrophoresis, electroplating, PVD, powder coating, metal wire drawing, sandblasting, sprucing, etching, and many others.
one) What’s your edge?
We offer non-standard/OEM/tailored provider.
We have secure and substantial-top quality supply chain to offer you with steady and trustworthy services.
two) How shortly can I get your quotation?
We normally estimate inside twenty hours. If you are very urgent, pls contact us or notify us in your electronic mail.
three) Will my layout drawing be risk-free after you get it?
Yes, we can signal the NDA ahead of you deliver the layout file.
4) Accessible for customized style drawings?
Indeed. The layout file structure is DWG, DXF,DXW, IGES, Step, PDF and so forth.
five) Do you give samples?
Indeed. Just need to have sample value.The sample expense could be refunded in mass creation.
6) What is the major time?
It is dependent on the amount, Usually 7-21 times after buy confirmed.
|
US $0.5-50 / Piece | |
1 Piece (Min. Order) |
###
| Parent Category: | CNC Machining Parts |
|---|---|
| Related Category I: | Auto Truck Bus Car Parts |
| Related Category II: | Motorcycle Bicycle Bike Parts |
| Related Category III: | Agricultural Machinery Parts |
| Transport Package: | Wooden/Carton Box |
| Specification: | Customized |
###
| Customization: |
Available
|
|---|
###
| Service |
CNC Machining
|
| Automatic Lathe Machining | |
|
Sheet Metal Fabrication
|
|
|
Stamping Parts
|
|
|
Surface Treatment
|
|
| Material |
Aluminum
|
|
Stainless Steel, Steel
|
|
|
Brass
|
|
|
Copper
|
|
|
Plastic
|
|
| Surface treatment | Sandblasting, Anodizing Color, Blackenning, Zinc\Nickl Plating, Polishing And Brushing,Etc. |
| MOQ | Quantity is not limited, small order can be accepted |
|
Drawing Format
|
STEP, CAD, STP, DWG, DXF, PDF, Gis, etc Or Samples
|
|
Delivery Time
|
5-25 Days, Depends on the quantities
|
|
Tolerance
|
+/- 0.01mm
|
|
QC
|
100% Inspection before shipment
|
|
OEM&ODM
|
We can design for you or production products same as your drawing
|
|
US $0.5-50 / Piece | |
1 Piece (Min. Order) |
###
| Parent Category: | CNC Machining Parts |
|---|---|
| Related Category I: | Auto Truck Bus Car Parts |
| Related Category II: | Motorcycle Bicycle Bike Parts |
| Related Category III: | Agricultural Machinery Parts |
| Transport Package: | Wooden/Carton Box |
| Specification: | Customized |
###
| Customization: |
Available
|
|---|
###
| Service |
CNC Machining
|
| Automatic Lathe Machining | |
|
Sheet Metal Fabrication
|
|
|
Stamping Parts
|
|
|
Surface Treatment
|
|
| Material |
Aluminum
|
|
Stainless Steel, Steel
|
|
|
Brass
|
|
|
Copper
|
|
|
Plastic
|
|
| Surface treatment | Sandblasting, Anodizing Color, Blackenning, Zinc\Nickl Plating, Polishing And Brushing,Etc. |
| MOQ | Quantity is not limited, small order can be accepted |
|
Drawing Format
|
STEP, CAD, STP, DWG, DXF, PDF, Gis, etc Or Samples
|
|
Delivery Time
|
5-25 Days, Depends on the quantities
|
|
Tolerance
|
+/- 0.01mm
|
|
QC
|
100% Inspection before shipment
|
|
OEM&ODM
|
We can design for you or production products same as your drawing
|
Agricultural Parts – The Best Metal for Agricultural Implements
Agricultural parts are used in almost every stage of cultivation and livestock management. The best metal for agricultural implements is steel. Agricultural equipment manufacturers are constantly trying to improve their products to better suit the needs of the farmer. In addition, they want to reduce the cost of repair. However, repairs on agricultural equipment are the responsibility of the farmer.
Steel is the best metal for agricultural implements
Choosing the right metal for agricultural implements can be tricky. There are different factors to consider, such as strength, elasticity, corrosion resistance, and ease of processing. All of these can seem to conflict with one another. However, steel has proven to be the best choice for agricultural equipment.
The metal is durable, affordable, and flexible. It can be customized to suit the characteristics of the agricultural equipment. It is also available in many grades, shapes, and thicknesses.
In addition, steel is environmentally friendly. It is resistant to chemicals and pesticides. It also maintains its integrity across a wide range of outdoor temperatures. It is also rust-resistant.
In addition to its strength, boron steel is also heat-resistant. It is also abrasion-resistant. Boron steel is used in agricultural machinery, chemical equipment, and other industrial units.
It is also highly corrosion-resistant. Agricultural processes are often exposed to harsh chemicals, dirt, and heat. Its low maintenance is also a good reason for farmers to use it.
The boron steel used for agricultural equipments also has the added benefit of an ultra-hard compound. It is used in the working parts of soil tillage machines. It is also used in food processing equipment.
The boron technology is a very effective way to prevent abrasive wear. It also increases the strength of the working parts of the agricultural equipments.
Modern farming is a very industrialized business. This is evident by the fact that most farm implements are made of low-alloy steel.
Technology has greatly shaped agriculture throughout time
Throughout history, technology has shaped agriculture, in both good and bad ways. It has been the catalyst of modernization and globalization. It has made travel and communication easier, increased business and education, and facilitated the building of cities.
There are several technological achievements that have made farming easier and more profitable. For example, genetic engineering is the way to go for many crops. Genetic modification makes crops more resistant to pests and weather, and preserves soil. Other advances include soilless farming methods and improved drip irrigation.
The most obvious benefit of modern agricultural technologies is the ability to produce more food with less labour. Precision farming also allows farmers to better care for their livestock. Many barns nowadays are equipped with Wi-Fi and automated feed systems. In addition, farmers can adjust the temperature in their barns using their smartphones.
There is no doubt that agriculture has undergone a paradigm shift in the last 50 years. In particular, the agricultural machinery and powered machinery have streamlined the mundane and transformed the way farmers operate. This is especially true for large scale farming.
Agricultural technology has improved the most mundane of farming tasks, such as weeding and watering. However, it has also led to new innovations in agriculture, such as genetically modified crops. Genetically modified crops are also known to conserve water and reduce carbon emissions.
The most important thing to remember about the aforementioned technological feats is that they have a cost. While it may be expensive to upgrade a whole farm, investing in a few technological breakthroughs can help farmers to achieve their goals and minimize problems along the way.
COVID-19 has been the biggest catalyst to supply chain breakdowns for farm equipment manufacturers
Among the most damaging effects of the COVID-19 pandemic has been the supply chain breakdowns in the farm equipment industry. According to a survey conducted by the Assn. of Equipment Manufacturers, 105 respondents weighed in on the effects of the pandemic on their business and industry.
The survey found that seven out of 10 executives have experienced a moderate impact on their supply chain. A quarter of respondents reported that the impact was extremely negative. AEM’s members are leading the industry’s response to the pandemic and are working with federal and state officials to mitigate its spread.
While the effects of the pandemic are still being felt worldwide, the U.S. economy is showing signs of recovery. However, there are still significant disruptions in the supply chain.
One reason why equipment manufacturers have been able to lead the country’s recovery is because of the efforts they’ve made to protect their employees. Most equipment requires hundreds of different components. Many manufacturers are stepping up to help keep employees safe by expediting raw materials and providing incentives to stay on the job.
However, even though the economy is improving, labor shortages are expected to persist. This is a problem that could amplify the imbalance among channels.
Some companies have been bringing back mothballed production lines to service and focusing on just-in-time delivery of raw materials and component parts. Some companies have also increased e-commerce sales and engaged new suppliers.
Intercropping prevents moisture loss and soil erosion
Agricultural practices such as intercropping are a key part of preventing moisture loss and soil erosion. It has been practiced for thousands of years, especially in temperate regions. However, the industrialization of agriculture in the 20th century led to the abandonment of intercropping in developed countries. The interest in organic farming has led First World farmers to return to intercropping.
In addition to reducing moisture loss and soil erosion, intercropping can also help to increase drought resistance. For example, intercropping maize with legumes can increase the soil moisture during peak rainfall. This improves soil hydrology and fertility, resulting in improved crop growth and yields.
The most effective crops to use for reducing soil erosion are legumes. Legumes have a dense root system and have a good canopy cover to protect the soil from the erosive effects of rainfall.
Soil erosion is a serious threat to agricultural sustainability. The amount of eroded soil directly deposited into reservoirs and beaches is approximately 29 percent of total soil erosion. In addition, more than half of eroded soil is transported by runoff. Agricultural practices that accelerate the erosion process must be reduced to avoid negative impacts on productivity.
In early experiments, researchers evaluated the effects of mixed cropping systems. They also investigated the interactions of different agricultural species. In a study on maize, Smith et al. found that legumes can meet protein needs in maize systems without increasing inputs.
Farmers use machines in almost every stage of cultivation and livestock management
Using machines in almost every stage of the agriculture cycle is no small feat. Most farmers still follow the old fashioned model of handpicking, shoveling, and baling. A modern day farmer could grow one thousand acres of corn. One may have a hard time keeping up with the herds on such a large scale. Some farmers have taken the lead in the modern era and are utilizing high tech solutions to their farming woes.
While many are still clinging to old school methods, modern day breeders and farmers have found the best way to produce high quality livestock is to modernize their facilities. Machines such as those pictured below are a boon to farmers and livestock alike. Machines such as these have also revolutionized the way farmers harvest crops. Machines such as these allow farmers to work the dirt with less abrasion and more precision. Many farmers are using machines to help with manure management, crop rotation, and weed control. Some have also tapped into the technology incorporated in these machines to enhance animal welfare. Some farmers are using technology such as these to make animal identification quicker and easier. Some farmers have even incorporated drones into their operations. Using drones in animal management has many benefits. Farmers are able to keep an eye on a small herd, reduce stress on a large herd, and improve the overall quality of the animals they produce.

editor by czh 2023-01-06