RU155642U1 - TABLE MILLING AND ENGRAVING MACHINE - Google Patents

Abstract

A desktop milling and engraving machine containing a base with Y-axis guides mounted on it, on which the worktable is mounted to move, above the Y-axis guides and perpendicular to it, X-axis guides are placed on which the plate is mounted with the ability to move perpendicular to the guides along the X axis, guides along the Z axis, on which the plate with the spindle unit mounted on it is mounted with the possibility of movement, characterized in that it is equipped with an additional unit an integral axis of rotation, consisting of a platform fixed rigidly on the surface of the working table, a tailstock that can be moved along the platform, and a three-jaw turning chuck for securing the workpiece and a stepper motor mounted on the housing to ensure rotation and rotation of the workpiece, with an additional axis unit rotation is made with the possibility of connecting to an electronic control unit associated with the control computer, through a connector and a connecting wire.

Description

The utility model relates to the field of mechanical engineering, in particular to machine tools, namely to milling and engraving machines, and is intended for the manufacture of small-sized products from metal, wood and plastics by milling and / or engraving requiring three-dimensional processing.

Known milling and engraving machine (patent for utility model No. 152324) containing a base with a work table mounted to move along the guides.

The disadvantages of this device include the inability to manufacture products requiring three-dimensional processing in automatic mode, i.e. for processing products from different sides, reinstalling the workpiece on the desktop and re-binding the processing tool is required.

The technical task of this utility model is to create a device that provides the ability to manufacture three-dimensional products by milling and engraving in automatic mode.

The technical result is to improve the quality of manufactured products.

The problem is solved due to the fact that the desktop milling and engraving machine containing a base with guides located on it along the Y axis, on which the work table is mounted with the ability to move along them, above the guides on the Y axis and perpendicular to them, guides along the X axis are placed on which a plate is installed with the possibility of movement, but with a plate installed on it perpendicular to the X-axis guides on the Z axis, on which a plate is mounted with the possibility of movement along them with fixed on th spindle unit, characterized in that it is equipped with an additional axis of rotation, consisting of a platform rigidly mounted on the surface of the working table, made to move the tailstock along the platform, a three-jaw turning chuck and a stepper motor mounted on the housing, made to rotate and rotate the workpiece fixed in the turning chuck, while the turning chuck is made of a three-jaw, and the node of the additional axis of rotation is equipped with a connector and a connecting wire, ying to be connected to an electronic control unit connected to the host computer.

The essence of the proposed technical solution is illustrated by illustrations, where

in fig. 1 shows a general view of a desktop milling and engraving machine with a node for an additional axis of rotation;

in fig. 2 shows a diagram of a node of an additional axis of rotation;

in fig. 3 shows a machine control system.

The desktop milling and engraving machine contains: base 1, work table 2, two guiding movements along the Y axis 3, two guiding movements along the X axis 4, the upper screed 5, the left side wall 6, the right side wall 7, the plate 8, two guiding movements on the Z axis 9, the pad 10, the spindle assembly 11, the ball screw transmission on the X axis 12, the ball screw transmission on the Y axis 13, the ball screw transmission on the Z axis 14, the processing tool 15, the nut 16, the additional axis of rotation 17, consisting of: platform 18 with T-grooves 19, housing 20, rear headstock 21, three-jaw lathe chuck 22, the stepping motor 23, the connecting wire 24 and the connector 25, the workpiece 26, the machine electronic control unit 27, the control computer 28.

The device operates as follows: a desktop milling and engraving machine has a base 1 with a working table 2 installed on it, which has the ability to move linearly along two movement guides along the Y axis 3, which are fixed to the base of the machine 1. Perpendicular to two movement guides along the Y axis 3 above the table 2 are fixed two guiding movements along the X axis 4, located on the upper screed 5 and providing movement of the plate 8 along the X axis. The upper screed 5 is fixed to the base 1 using the left side wall 6 and the right side wall 7. Along the two guides of movement along the X axis 4, it is possible to move the plate 8, on which two guides of movement along the Z axis 9 are fixed, along which the plate 10 can move along the Z axis with the spindle unit 11 mounted on it. The ability to move along the axes X, Y, Z is implemented using ball screws 12, 13, 14, respectively.

The machine is controlled by a control computer 28 connected to the electronic control unit of the machine 27, which, in turn, distributes control signals between the actuators of the machine.

The node of the additional axis of rotation 17 is installed by the platform 18 on the surface of the desktop 2 and is rigidly attached to it. The node of the additional axis of rotation 17 is connected to the electronic control unit of the machine 27 by means of a connecting wire 24 through the connector 25. A three-jaw lathe chuck 22 and a stepper motor 23 are mounted on the housing 20 fixed on the platform 18 and rotate or rotate the jaw mounted in a three-jaw lathe the cartridge 22 of the workpiece 26. In order to avoid fluctuations of the workpiece 26 when machining with a cutting tool 15 from the other end, it is fixed without restrictions on the possibility of rotation using the rear headstock 21. The tailstock 21 has the ability to move along the platform 18 along the T-grooves 19 and is fixedly fixed in the size of the workpiece 26 on the platform 18.

The processing tool 15 is fixed in the spindle unit 11 with the nut 16. According to the operator's commands specified from the keyboard of the control computer 28, the processing tool 15 is set to zero position relative to the workpiece 26 according to the requirements of the control program. At the same time, the position of the workpiece 26 is changed by rotation or rotation using the node of the additional axis of rotation 17 without manual reinstallation of the workpiece 26 at the command of the operator from the keyboard of the control computer 28 or at the command of the control program.

The technical result of the proposed device in operation is determined by the possibility of installing the workpiece into a three-jaw turning chuck of the additional axis of rotation, fixing its other end with the help of the tailstock and milling and engraving three-dimensional processing of products in automatic mode with the simultaneous or sequential use of three axes of movement X, Y , Z and the node of the additional axis of rotation 17.

The application of the proposed device can improve the quality of manufactured products due to the possibility of milling and engraving processing of volumetric parts in automatic mode without reinstalling the workpiece and re-binding the processing tool.

Based on the foregoing, the task of creating a device to improve the quality of manufactured parts, solved.

Claims (1)

A desktop milling and engraving machine containing a base with Y-axis guides mounted on it, on which the worktable is mounted to move, above the Y-axis guides and perpendicular to it, X-axis guides are placed on which the plate is mounted with the ability to move perpendicular to the guides along the X axis, guides along the Z axis, on which the plate with the spindle unit mounted on it is mounted with the possibility of movement, characterized in that it is equipped with an additional unit an integral axis of rotation, consisting of a platform fixed rigidly on the surface of the working table, a tailstock that can be moved along the platform, and a three-jaw turning chuck for securing the workpiece and a stepper motor mounted on the housing to ensure rotation and rotation of the workpiece, with an additional axis unit rotation is made with the possibility of connecting to an electronic control unit associated with the control computer, through a connector and a connecting wire.

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