RU181398U1 - 3D printer - Google Patents

Abstract

A 3D printer refers to the technology of manufacturing a three-dimensional three-dimensional product using a digital 3D model and can be used in 3D printers to create three-dimensional products by sequentially applying multiple layers. The 3D printer contains a housing 1, a printhead 2 located in the housing 1, mounted on a carriage 3 and equipped with a mechanism for moving the printhead in the XY plane, a desktop 4, a controller 5, controls 6, a display 7. The housing 1 is made with a removable upper 11 , front 12 covers made of transparent material and a removable side cover 13. A work table 4 with a work surface heater and a support plate is mounted on the base of a work table 14 with a drive screw 15 and a drive nut 16 of a screw drive for movement along the Z axis. Drive the nut 16 is installed with the possibility of deviating from the plane of the working table 4 by securing it with a locking screw 19. The mechanism for moving the print head in the XY plane contains longitudinal linear bearings 25 and 26, longitudinal guides of linear bearings 27 and 28, a transverse linear bearing 29, a transverse linear guide bearing 30, drive pulleys 31 and 32, interacting with drive belts 33 and 34. The 3D printer has a simple design, is easy to use and reliable in operation, allows you to achieve high accuracy print.

Description

The utility model relates to the technology of manufacturing a three-dimensional three-dimensional product using a digital 3D model, in particular to a three-dimensional printer for creating a three-dimensional model by rapid prototyping methods, and can be used in 3D printers to create three-dimensional products by sequentially applying multiple layers by using a thermal head, made with the possibility of movement relative to the support base for the material on the applied layer.

Known 3D printers containing a housing located in the housing of the print head, mounted on a carriage and equipped with a mechanism for moving the print head in the XY plane with longitudinal and transverse linear bearings, pulleys that interact with drive belts, drive belt tensioners, print head movement motors, working table with a work surface heater fixed on the base of the work table with vertical guides, screw drive along the Z axis with a drive screw and a drive ha a can for the Z axis, controller, controls, display (see RF patent No. 2552235 for IPC B41F 17/00, publ. 06/10/2015 and utility model patent of the Russian Federation No. 164639 for IPC B41F 17/00, publ. 10.09 .2016).

The closest in technical essence is a 3D printer containing a housing located in the housing of the print head, mounted on a carriage and equipped with a mechanism for moving the print head in the XY plane with longitudinal and transverse linear bearings, driving pulleys interacting with drive belts, drive belt tensioners, print head displacement motors, work table with a work surface heater fixed to the work table base with vertical guides, screw drive per rooms along the Z axis with a drive screw and a drive nut for the Z axis, controller, controls, display, and only one belt is used to move the carriage along the two XY axes, and the carriage itself moves along the rail guides, the number of supply mechanisms for consumables is not less than two and are located on the housing, which is structurally made without an internal frame and made of transparent material (see patent for utility model of the Russian Federation No. 164639 according to IPC B41F 17/00, publ. September 10, 2016).

Common disadvantages of the known 3D-printers is not high enough printing accuracy due to deformation of the desktop during its heating, due to the high coefficient of linear expansion of the metal. The base of the desktop has insufficient rigidity and strength, allowing increased backlash relative to the vertical and horizontal axis. In well-known printers, it is more difficult to replace the print head if it is necessary to change the print parameters or change the print material, as well as in the event of a printhead malfunction. The disadvantage is the difficulty of uniform tension of the drive belts, which leads to an uneven load on the motors, premature wear, thereby reducing the reliability of the printer.

The technical result is to increase the accuracy of printing and the reliability of the printer.

The technical result is achieved in that in a 3D printer containing a housing located in the housing of the print head mounted on the carriage, a mechanism for moving the print head in the XY plane with longitudinal and transverse linear bearings, pulleys interacting with drive belts, drive belt tensioners, motors the movement of the print head, a desktop with a heater for the working surface, mounted on the base of the desktop with vertical guides, a screw drive moving along the Z axis with a drive screw the volume and the drive nut, and the controller, and the controls, and the display located on the housing, according to a utility model, it is equipped with a support plate with a low coefficient of linear expansion and high heat capacity, mounted on the base of the desktop, while the drive belt tensioners are made with smooth adjustment in the form of a plate and a tensioner screw, the said pulleys include kinematically connected driving, supporting and guide pulleys, while the guide pulleys are located respectively above and below the plane of the drive pulley, and the print head mounted on the carriage by means of screw fixing. The drive nut is installed with the possibility of deviation from the plane of the working table by means of its fastening with a locking screw. The drive screw is made with the butt end supported on a ball fixed in the base of the printer case, and the lower side surface is fixed in the bearing of the drive screw. The housing of the linear bearing of the base of the desktop is connected to the base of the desktop and the rear wall of the desktop. The controls and display are located on the case on the right side. The work table with a work surface heater and the print head are equipped with electrical connectors. The heater support plate is made of ceramic material.

The essence of the claimed 3D printer is illustrated in the drawings made in a three-dimensional image with a shadow study.

In FIG. 1 shows a general view; in FIG. 2 shows the design of the base of the desktop; in FIG. 3 is a fragment explaining the construction of the support of the drive screw; in FIG. 4 - device for moving the print head; in FIG. 5 - same, left view; in FIG. 6 is a fragment illustrating a device of a belt tensioner; in FIG. 7 shows the design (fragment) mounting the print head.

The inventive 3D printer contains a housing 1, located in the housing 1, the print head 2, mounted on the carriage 3 and equipped with a mechanism for moving the print head in the XY plane, desktop 4, controller 5, controls 6, display 7.

The controls 6 and the display 7 are located on the housing 1 on the right side. The housing 1 is equipped with handles 8 and 9 for carrying and a bracket for consumables 10. The housing 1 is made with a removable upper 11, front 12 covers of transparent material and a removable side cover 13. The side cover 13 closes the parts that are in the compartment inside the housing 1 this controller 5, power supply and motors (not shown in the drawing),

Parts of the housing 1 are made of steel with a thickness of 1-2 mm using high-precision laser cutting and precision bending, painted with polymer paint. Between themselves, the parts of the housing 1 are connected using screws and rivets.

A work table 4 with a work surface heater and a support plate is fixed on the base of the work table 14 with a drive screw 15 and a drive nut 16 of a screw drive for moving along the Z axis.

The base plate 17 of ceramic material is fixed on the work table 4. The work table 4 is equipped with electrical connectors 18.

The drive nut 16 is installed with the possibility of deviation from the plane of the working table 4 by means of its fastening with a locking screw 19.

The linear bearing of the base of the desktop 20 is connected to the base of the desktop 14 and the rear wall of the base of the desktop 21.

The drive screw 15 is based on the support ball 22, fixed in the base of the housing 23, and the lower side surface is fixed in the bearing of the drive screw 24.

The mechanism for moving the print head in the XY plane contains longitudinal linear bearings 25 and 26, longitudinal guides of linear bearings 27 and 28, a transverse linear bearing 29, a guide of the transverse linear bearing 30, drive pulleys 31 and 32, interacting with drive belts 33 and 34,

The longitudinal guides of the linear bearings 27 and 28 are located on the X axis and are rigidly fixed in the upper part of the housing on the mounting plate 35, and the guide of the transverse linear bearing 30 is located on the Y axis between two longitudinal linear bearings 25 and 26, with the possibility of moving along the longitudinal linear guides bearings 27 and 28.

Drive belts 33 and 34 are kinematically connected with drive pulleys 31 and 32, support pulleys 36 and lower and upper guide pulleys 37 and 38. Moreover, the lower guide pulley 37 is located below, and the upper guide pulley 38 is higher than the plane of the drive pulleys 31 and 32, the ends of the drive belts 33 and 34 are mounted on the carriage 3.

To tension the drive belts 33 and 34, tensioners with infinitely adjustable adjustment are used. Drive belt tensioners consist of a tensioner plate 38 fixed to a mounting plate 35, a tensioner screw 39, and fixing screws 40.

To quickly replace the print head 2, a groove 41 is provided in the carriage 3, a groove 42 in the print head 2, fixing with screws 43, there are electrical connectors.

The inventive 3D printer operates as follows.

Before printing on a personal computer using the appropriate graphic software, for example, Compass 3D, AutoCad, SolidWorks, Blender, 3ds Max, Google SketchUp form a 3D model of the part.

After that, the formed model is loaded into special software, which provides the splitting of the model into layers and the preparation of the task for printing. The necessary parameters and conditions for printing are determined, in particular, the print resolution, the speed of movement of the print head 2, the thickness of the outer shell of the product, the percentage of filling the product with plastic material (from 0% in the manufacture of hollow parts, up to 100% in the manufacture of solid parts) , the need to build supporting structures in the presence of attachments on the model, the cooling mode of the part by controlling the operation mode of the printhead fan 2 and other parameters available in the software echenii.

Depending on the type of material, the temperature in the printhead 2, the heating temperature of the desktop 4 are selected.

At the end of the preparation of the task, load the prepared task into the controller 5 using a memory card or interfaces USB, Wi-Fi, etc. At the end of all preparations, printing is started.

After starting printing, the print head 2 and the surface of the desktop 4, the print head 2 and the desktop 4 are heated to the desired temperatures, search for zero coordinates along the XYZ axes, and then the process of printing the product on the desktop 4 is started.

Layered application of material on the created product is carried out through the extruder of the printhead 2.

Material in the form of a thread wound on a spool enters through a dispenser (not shown in the drawing) into the printhead 2, where it goes into an elastic or pasty state, after which it is fed into the nozzle under the pressure created by the dispenser.

The mechanism for moving the print head 2 allows you to install it at any point above the surface of the desktop 4.

From the nozzle of the print head 2, the material is fed layer-by-layer to the model being manufactured, while there is a heating of the material of the previous layer, which ensures their reliable adhesion to each other.

At the end of the operation, the print head 2 is set to its original state. After cooling, the product is ready for use.

The fastening of the drive nut 16 with the locking screw 19 made it possible to compensate for the influence of the deviation of the base of the working table 14 from the horizontal axis when loading on the working table 4, to reduce the skew between the drive nut 16 and the drive screw 15, to increase the smoothness of motion, to reduce the load on the motor.

The drive screw 15 rests against the supporting ball 22 fixed in the base of the printer housing 23, and the lower side surface is fixed in the bearing of the drive screw 24, which eliminates the vertical play of the drive screw 15, which improved print quality and reliability.

The fastening of the desktop 4 with the heater of the working surface on a base plate made of ceramic material with a low coefficient of linear expansion, allows to obtain uniform heating of the desktop 4 and reduce the deformation of the desktop 4 when heated, which affects the printing accuracy of the printer.

The equipment of the desktop 4 with a heater of the working surface with electrical connectors 18 allows you to simplify the replacement of the desktop 4 in case of failure.

The connection of the linear bearing housing of the desktop 20, the base of the desktop 14 with the rear wall of the desktop 14 increases the rigidity and strength of the base of the desktop 14, reducing the backlash relative to the vertical and horizontal axis, which increased the printing accuracy of the printer.

The smooth screw adjustment of the tensioners of the drive belts 33 and 34 in the form of a plate 38 and the screw of the tensioner 39 allows to obtain uniform tension of the drive belts 33 and 34 both during the manufacturing process of the printer and during its operation, uniform wear of the drive belts 33 and 34, as well as a uniform load on motors for drive pulleys, improve ride smoothness, which has improved print quality and reliability.

The location of one guide pulley 38 above and the other guide pulley 37 below the plane of the drive and support pulleys 36 can reduce the skew of the drive belts, affecting wear and increase the reliability of the printer.

The housing 1 is made with removable upper 12, front 13 covers made of transparent material, which allows to increase the reliability of fastening the covers, to limit the internal volume of the printer from environmental influences, which made it possible to improve the print quality of the printer.

The location of the controls 6 and the display 7 in the housing 1 on the right side allows convenient monitoring of the printing process and the display, when exposed to the controls, the view on the desktop 4 and display 7 does not close.

The execution of the housing 1 of steel with a thickness of 1-2 mm using high-precision laser cutting and precision bending increases the rigidity, strength and stability of the design, which allowed to increase the print quality of the printer, provides easy access to internal components for adjustment and repair.

The housing 1 is made with a removable side cover 13 that covers the compartment, inside of which are the controller 5, the power supply and motors, and this compartment is separated from the desktop and has forced ventilation, thereby reducing the heating of printer parts.

The housing 1 is glued inside with noise-absorbing and heat-insulating material to reduce noise from moving parts of the printer and motors, as well as to reduce heat loss from the desktop 4.

The proposed 3D printer has a simple design, easy to use and reliable in operation, allows you to achieve high precision printing.

Claims (7)

1. A 3D printer comprising a housing located in a housing of a print head mounted on a carriage, a mechanism for moving the print head in the XY plane with longitudinal and transverse linear bearings, pulleys interacting with drive belts, drive belt tensioners, print head movement motors, a working a table with a work surface heater fixed on the base of the work table with vertical guides, a screw drive for moving along the Z axis with a drive screw and a drive nut, and a controller, organs control and display located on the housing, characterized in that it is equipped with a support plate with a low coefficient of linear expansion and high heat capacity, mounted on the base of the desktop, while the drive belt tensioners are made continuously adjustable in the form of a plate and a tensioner screw, said pulleys include kinematically connected driving, supporting and guide pulleys, while the guide pulleys are located respectively above and below the plane of the driving pulleys, and the print head is mounted on a square thread with screw fixing. 2. The 3D printer according to claim 1, characterized in that the drive nut is installed with the possibility of deviation from the plane of the desktop by fixing it with a locking screw. 3. The 3D printer according to claim 1, characterized in that the drive screw is end-supported by a ball fixed in the base of the printer housing and the bottom side surface is fixed in the bearing of the drive screw. 4. The 3D printer according to claim 1, characterized in that the housing of the linear bearing of the base of the desktop is connected to the base of the desktop and the rear wall of the desktop. 5. The 3D printer according to claim 1, characterized in that the controls and display are located on the housing on the right side. 6. The 3D printer according to claim 1, characterized in that the desktop with a heater for the working surface and the print head are equipped with electrical connectors. 7. The 3D printer according to claim 1, characterized in that the heater support plate is made of ceramic material.

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