KINGS 3D PRINTING

1. High-Speed Laser Sintering – The optimized scanning and heating system have effectively improved the printing speed. Products about 5KG can be printed out within 24 hours.

2. High Use Rate of the Nylon Powder – The original revival technology of PA powder makes the powder utilization rate close to 100%.

3. High Use Rate of the Printer – The external powder tank realizes continuous powder feeding and powder replenishment at any time. And the quick tank loading reduces the machine preparation time, thus improving the use rate of the printer.

4. Intelligent Dial-Blade Recoater – The dual-blade recoater brings better surface smoothness and details for the industrial-quality parts, which also decreases the amount of powder overflow, thus improving the material use rate.

1. High Precision & High Quality – Supports 20μm laser spot size. Precisely print out every structural detail. Adopting a concentrated laser, the energy greatly enhances the density and strength of the printed part.

2. All Closed Looped Powder Handling System – The low oxygen content in the manufacturing environment ensures that the metal is not oxidized, and is compatible with powders of different specifications.

3. Double Circulation Wind Site Protection System – Dual-circulation wind site protection system to extend the lifespan of the optical components.

4. Fully Pop-up Piston System – Equipped with a fully pop-up piston system, it is more convenient and quicker to replace metal powders, and 100% eliminates cross powder contamination when replacing powders.

1. Kings FGF 3D Printer (Fused Granular Fabrication – FGF) is an extrusion-based 3D printing technique where plastic granulates (plastic pellets) are melted and fed through a nozzle. It is also known as pellet extrusion printing, pellet printing, fused pellet fabrication or fused particle fabrication.

2. By converting raw material directly to the print bed in a granular form, it shortens the turnaround times and improves the reliability with low material cost.

3. Applications: Widely used for sculpture making, furniture designing, toy industry, art crafts, mold manufacturing, plaques, landscape signs etc.

Why 90% shoe company choose KINGS?
1. KINGS is the first 3D printer manufacturer providing 3D printing solutions for shoe model mass production.
2. Professional engineers from brand shoe factory are employed to work together with 3D printing engineers to provide shoe manufacturers with technical expertise.
3. KINGS made breakthrough in the shoe model software in 2016, by reducing 5 hours in modifying the 3D files of shoe model for 3D printing, which has revolutionized the shoe model making.
4. Through unremitting efforts, KINGS 7255 with dual laser heads has been launched to the market, the printing efficiency of which has increased by 60%, which is capable of printing 42 shoe models in 29 hours; namely it takes only 42 minutes for each shoe model.

Below is the application of KINGS SLA 3D printing technology:
– Prototype (quickly check the appearance and structure of the design)
– Casting shoe model（replacing wooden model by CNC machining）
– Soft shoe model (fitting test to check function and comfort degree)
– Shoe mould production (for small batch production)
– Finished shoe sole (Customized shoe development and production)

Prototype is an early sample, model, or release of a product for test before mass production. A prototype is generally used to evaluate a new design to enhance precision by system analysts and users. Prototype are widely used in industrial manufacturing, whose function lies not only in checking the appearance and structure of the design, but also in lowering cost by avoiding the huge expense loss in case of failure in direct molding, and in saving time through the publicity of the products before mass production.

3D printing has been applied in prototype as follows:
1. Replacing traditional mould in small batch production, personalized customization, and products with complicated structure.
2. Print mould or mould parts directly, such as injection mould, drawing die, and die-casting die, or to restore mould.

The traditional architectural model design is based on drawing design, and the model production is hand-made and time-consuming. KINGS SLA 3D printer uses laser curing technology, which directly visualize the design concepts by restoring the true details of the digital CAD design and printing a resin model with smooth surface. It greatly shortens the model production cycle, and speeds up the project schedule.

3D printing technology has incomparable advantages in real estate sandbox production. Below is its main application:
Auxiliary design: 3D printing technology can quickly restore design drawings and assist design proposal verification.
Quick design model: 3D printing technology can quickly print out the building display model and show the building plan to customers.
Save the time of building scale model: 3D printer greatly reduces the time required to create a scale model.
Friendly for modification: 3D printing gives you more flexibility in modifying the models. If the customer proposes any changes, you can simply edit it on the file .

​3D printing technology in the field of medical development:

1. Innovations in medical device design: 3D printing help to realize complicated designs that cannot be achieved in traditional manufacturing, so as to meet the special requirement of medical care;
2. Manufacturing of medical auxiliary equipment: customized medical device products for scientific research and clinical application well meet customers’ requirements on cost, efficiency and quality.
3. Clinical aids and presentation: it reconstructs 3D models that are in line with the physiological characteristics of the human body, providing a powerful reference for doctors to accurately find the cause of the disease before treatment.
4. Clinical equipment testing: it helps to ensure the surgery is safe and efficient, and to reduce medical accidents.

By introducing 3D printing technology into reconstructive surgery, the 3D printing model can be used to assist in the preoperative simulation of craniofacial surgery, which effectively helps with the three-dimensional reconstruction of soft tissue morphological structures, and the positioning, moving and rebuilding of complex three-dimensional structures such as skulls, jaws, and sacrum. Common examples include skull models, jaw models, and outer ear models.

In the handicraft customization market, jewelry decorations, wood carvings and other handicraft-related gifts are beautiful but difficult to duplicate. Hollow and internally carved structures are difficult to complete by hand, which can be solved by applying 3D printing technology.

The application of 3D printing technology in the field of craft gifts and jewelry:
1. High-precision craft gift sculpture
2. Rapid preparation of craft gifts
3. Three-dimensional digitization of large-scale engraving works