RU179153U1 - Printhead of building 3D printer - Google Patents

Abstract

The proposed utility model - the print head of a building 3D printer allows to simplify the design of building 3D printers, while improving print quality with multicomponent mixtures and simplifying the maintenance process, namely it allows you to prepare a multicomponent mixture immediately before application and feed it into the nozzle under the necessary pressure, thus in 3D the printer significantly reduces the volume of the prepared mixture, with a limited lifetime, which allows the use of mixtures with a shorter short lifetime, reduce the loss of the mixture when washing the device after printing, quickly adjust the quality of the mixture. The utility model relates to the field of three-dimensional printing of products from multicomponent mixtures and can be used, in particular, in construction when printing buildings from concrete and its derivatives. The technical result in the proposed utility model is achieved due to the fact that the print head of a 3D building printer designed for printing with a multicomponent mixture consists of an extruder mixer, including a housing, a screw containing cylindrical and conical parts, valves for supplying individual components of the mixture and the drive of the screw and nozzle, while the mixer-extruder is connected directly to the nozzle.

Description

The proposed utility model - the print head of a 3D building printer - relates to the field of three-dimensional printing of products from multicomponent mixtures and can be used, in particular, in construction for printing buildings made of concrete and its derivatives.

Currently, there are a significant number of different devices intended for three-dimensional printing used in construction, for example, a device is known that contains a print head and a three-dimensional positioning mechanism that performs the application of wall material by the print head in the process of moving the print head along the coordinates of the walls in three-dimensional space ( see Chinese Patent CN 204728708 U dated April 21, 2015, CL E04G 21/00, E04G 21/04). The known device requires the supply of printing material, usually a multicomponent mixture (concrete) to the printhead from a stationary mixer or tank, which leads to a significant increase in the volume of the mixture, with a limited life span in the device, and as a consequence of complicating its design, increasing the amount of waste, remaining after printing, the inability to control the quality of the mixture during printing and the extremely difficult cleaning of the device during an emergency stop. A device and method for three-dimensional printing of buildings is also known, which consists in applying the material of the walls with a print head in the process of moving the print head along the coordinates of the walls in three-dimensional space, characterized in that a glass furnace is used as the print head (see RF patent RU 2618235 C1 from 04.04.2016 Cl. E04G 21/16) The known device is devoid of some of these drawbacks, in particular the preparation of the printing material is carried out directly in the print head, but it is used as a print The head of the glass melting furnace, which significantly narrows the scope of the device and makes it impossible to use it for printing multicomponent mixtures.

The tasks solved by the proposed utility model are to simplify the construction of 3D building printers using a multicomponent mixture for printing by using a new print head, while improving print quality and simplifying the maintenance process.

The technical result in the proposed utility model is achieved due to the fact that the print head of a 3D building printer designed for printing with a multicomponent mixture consists of a nozzle and an extruder mixer connected to it, including a housing, a screw containing cylindrical and conical parts, valves for feeding the individual components of the mixture and the screw drive and nozzle.

- Perhaps the execution of the device in which the mixer-extruder is connected to the nozzle by means of a connecting element.

- It is possible to implement a device in which the relative position of the nozzle and the mixer-extruder can be changed due to the movable components of the connecting element.

- It is possible to design a device in which the screw of the mixer-extruder has a device for manually turning it.

- It is possible to design a device in which individual elements or nodes of the mixer-extruder and nozzle are made by three-dimensional printing.

- It is possible to design a device in which individual elements or units of the mixer-extruder and nozzle are made of non-metallic materials.

- It is possible to design a device in which the screw of the mixer-extruder, the valve and the connecting element have a pneumatic, hydraulic, electric, mechanical drive, or a combination thereof.

The design of the device with a mixer-extruder allows you to prepare a multicomponent mixture immediately before its application and feed it to the nozzle under the necessary pressure, so the volume of the prepared mixture with a limited lifetime is significantly reduced in a 3D printer, which allows you to use mixtures with a shorter lifetime, reduce losses mixture when washing the device after printing is completed, promptly adjust the quality of the mixture.

The design of the mixer with a screw containing a cylindrical and conical parts allows you to qualitatively mix the components of the mixture in the cylindrical part of the screw and to obtain the necessary pressure of the mixture in front of the nozzle due to compression and compaction in the conical part of the screw.

The design of the device with valves for supplying the components of the mixture allows you to qualitatively control the composition of the mixture and the number of components in it, thus it becomes possible to print various elements of the object (for example, load-bearing and auxiliary walls) with a mixture with different composition and properties, which ensures a reduction in the cost of printing and optimization of the characteristics of the object.

The design of the device, in which the mixer-extruder is connected to the nozzle, allows to minimize the internal volume of the print head and reduce the amount of prepared multicomponent mixture.

The design of the device, in which the mixer-extruder is connected to the nozzle by means of a connecting element, allows you to position the nozzle most optimally relative to the main elements of the 3D printer.

The design of the device, in which the relative position of the nozzle and mixer-extruder can be changed due to the movable components of the connecting element, allows printing of more complex objects or printing in a limited space

The design of the device, in which the mixer auger has a device for manually turning it, makes it possible to clean the internal cavities of the device from a multicomponent mixture with a limited lifetime during an emergency stop and not being able to turn the auger from the drive.

The design of the device, in which the individual elements or nodes of the mixer-extruder and nozzle are made by three-dimensional printing, allows you to optimize the design of the device to reduce its cost and improve mass and dimensions.

The design of the device, in which individual elements or units of the mixer-extruder and nozzle are made of non-metallic materials, allows you to choose the most optimal materials and increase the resource of the device.

The design of the device, in which the screw of the mixer-extruder, valve and the connecting element have a pneumatic, hydraulic, electric, mechanical drive or a combination thereof, allows you to optimize the design of the device taking into account the design features of the remaining 3D printer nodes and increase the degree of unification and ease of maintenance.

The proposed design of the print head of a 3D building printer is simple and manufacturable, reliable and easy to use, while it allows you to get multicomponent mixtures with a limited lifetime just before their use, quickly adjust the quality of the mixture, reduce the amount of waste after printing and simplify the process of maintenance and cleaning devices, thus achieving all the main objectives of the invention.

The essence of the proposed utility model is illustrated by specific examples and drawings, where

In FIG. 1 shows a General view of the extruder 3D printer

In FIG. 2 shows a general view of a 3D printer extruder in which the mixer is connected to the nozzle by means of a connecting element

The print head of a 3D building printer (Fig. 1, 2), intended for printing with a multicomponent mixture, contains an extruder mixer (1), including a housing (2), a screw containing cylindrical and conical parts (3), valves for supplying individual components of the mixture (4) and the screw drive (5), and the nozzle (6).

Possible execution of the device (Fig. 2), in which the mixer is connected to the nozzle by means of a connecting element (7).

The print head of a construction 3D printer operates as follows: the components of the mixture are supplied through the valve (4) in the required quantity and proportions and mixed with the screw (3) driven by the screw drive (5), while mixing, the mixture moves from the cylindrical part of the screw to the conical, where it is compressed and fed into the nozzle (6), which applies the mixture to the created object. If the mixer is connected to the nozzle by means of a connecting element (7), the mixture enters first into the connecting element, and then into the nozzle. If it is necessary to change the composition of the mixture, the position of one or more valves (4) changes (including the complete closing of the valve or the opening of a previously closed valve), which leads to a change in the flow rate of the components and to obtain a mixture with a new composition, after spending a known amount of the old mixture in device at the time of changing the position of the valves begins to print a new mixture.

Thus, when using the proposed printhead of a construction 3D printer, there is no need for preliminary preparation of the mixture and its movement from the preparation device to the extruder, which significantly reduces the volume of the prepared mixture, with a limited lifetime, simplifies the design of the 3D printer, improves print quality and simplifies the maintenance process , and also allows you to use mixtures with a shorter lifetime, to reduce the loss of the mixture when washing the 3D printer after printing, promptly regulate the quality of the mixture.

Claims (7)

1. The print head of a 3D building printer designed for printing with a multicomponent mixture, consisting of a nozzle and an extruder mixer connected to it, including a housing, a screw containing cylindrical and conical parts, valves for supplying individual components of the mixture and the screw drive. 2. The device according to claim 1, in which the mixer-extruder is connected to the nozzle via a connecting element. 3. The device according to claim 1, in which the relative position of the nozzle and the mixer-extruder can be changed due to the movable components of the connecting element. 4. The device according to claim 1, in which the mixer screw has a device for manually turning it. 5. The device according to claim 1, in which the individual elements or nodes of the mixer-extruder and nozzle are made by three-dimensional printing. 6. The device according to claim 1, in which individual elements or nodes of the mixer-extruder and nozzle are made of non-metallic materials. 7. The device according to claim 1, in which the screw of the mixer-extruder, valve and connecting element have a pneumatic, hydraulic, electric, mechanical actuator or a combination thereof.

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