PL233659B1 - Working platform for 3D printers - Google Patents

Abstract

The working platform of 3D printers is designed especially for printers working in the fused material deposition system. The platform is equipped with a working plate (1) located on a metal plate (2) equipped with a circumferential seal (5) with channels or openings open from the side of the working plate to which vacuum is supplied through a connection stub (4) and a thermally insulated casing (7) characterized in that the metal plate (2), to which the working plate (1) is sucked, is equipped with resistance heating elements (6).

Description

Description of the invention

The subject of the invention is a 3D printers' working platform, intended in particular for printers working in a melt deposition system (FFF).

Work platforms equipped with a replaceable working plate are known and used, which is sucked into a metal one equipped with channels open on the side of the working plate, to which negative pressure is applied. In such printers, the working plate is unheated, which significantly reduces the amount of materials used for printing, only to those materials that do not require elevated platform temperature. In 3D printers with such a mounting plate, used when printing with materials that require higher temperatures, the entire printing chamber is heated. This solution significantly increases the costs of printing and building a 3D printer, which is a significant drawback of such solutions.

There are also known 3D printers with a heated platform, the working plate of which is attached by means of fasteners or shaped elements to a heated platform element located under the working plate. However, this solution generates a number of problems related to deformation due to the different thermal expansion of individual elements of the working platform, especially the working plate, especially when using plastic working plates, it is difficult to obtain flatness of the working plate while maintaining a low price of the working platforms. Working plates mechanically attached to the heated platform must have sufficient stiffness to be able to attach them in several points, what is more, their softening point of the working plate must be significantly higher than the temperature of the platform during printing, which makes it practically impossible to use a thin coating of a suitable for a given plastic print. As a result, these platforms are most often made of polyester-glass laminate or glass, and not an appropriate thermoplastic material, which in the case of some printing materials requires the use of special chemical preparations on this type of platforms before each printing, improving the adhesion of the print to the platform. Despite the use of the above-mentioned preparations on such platforms, the range of printable materials that can be used remains very limited.

The aim of the invention is to develop a construction of the build plate that allows for quick replacement of the working plate and easy removal of the printout from the printer, while ensuring an appropriate, constant and uniform temperature of the working plate and enabling printing with a greater range of materials while maintaining a low cost of producing a 3D printer.

The working platform, equipped with a working plate located on a metal plate equipped with a peripheral gasket with channels or openings open from the side of the working plate, to which negative pressure is applied through a connection stub and a thermally insulated casing, according to the essence of the invention is characterized by the fact that the working plate is sucked in, it is equipped with resistance heating elements. Preferably, the resistance heating element is a thrust plate mounted directly below the metal plate. In a variant, the resistance heating elements are preferably arranged in openings made in the metal plate. Preferably, the worktop is provided with a handle.

Such a construction of the working platform allows easy replacement of the working plate with a small thickness, reduces the printing costs, compared to the same costs in the case of known solutions.

The subject matter of the invention is shown in the drawing in the basic embodiment, in which Fig. 1 shows the platform disassembled into its component parts in an axonometric view, and Fig. 2 shows the platform in an axonometric view.

Example: The working platform for 3D printers has a working plate 1 situated on a metal plate 2 with channels 3 open from the side of the working plate 1, to which a vacuum is applied through a connection stub 4, the metal plate 2 having a circumferential groove in which has a seal 5 made of a material resistant to high temperatures. A resistance heating plate 6 is pushed to the plate 2 from below. The plate 2 with a resistance heating plate 6 is placed in a housing 7 made of a material which is a thermal insulator. The work plate 1 is equipped with a handle 8.

Claims (3)

Patent claims 1. A working platform for 3D printers, equipped with a working plate located on a metal plate equipped with a peripheral gasket with channels or holes open from the side of the working plate to which negative pressure is applied through a connection stub and a thermally insulated housing, characterized in that the metal plate (2) to which the working plate (1) is sucked, is equipped with resistance heating elements. 2. The work platform according to claim A heating element as claimed in claim 1, characterized in that the resistance heating element is a resistance heating plate (6) mounted directly under the metal plate (2). 3. The work platform according to claim The heating element of claim 1, characterized in that the resistance heating elements are positioned in openings made in the metal plate (2).