RU57188U1 - MILLING MACHINE - Google Patents

Abstract

The utility model relates to the field of machine tools, in particular to milling woodworking machines, and can be used for milling wooden workpieces: transverse planing, cutting curved surfaces, including irregular shapes, selection of grooves, tongues, grooves, grooves, etc. The objective of this utility model is to create a compact milling machine, expand its functionality, increase labor productivity, safety and ease of maintenance, ensuring high-quality processing of wooden products. The milling machine contains a base 1, a support element mounted on it, on which a spindle with a cutting tool is mounted, kinematically connected to an electric motor, the support element being made in the form of a machine body 2, with a working table 3 fixed to it, on which a rack 4 is attached from the front and the rear guide strips 5, 6, a groove is made on the desktop, in which a sliding bar 16 is placed, connected to the guide bevel 17 and a socket for mounting the spindle 19 with a cutting tool is provided, as well as Lena movable rod 14 with a protective cap 15 for a cutting tool. The rack 4 is made of two parts, of which the front part with the guide bar 5 attached to it is made with the possibility of mixing it relative to the rear guide bar 6 and is fixed with a screw 7. Using the inventive utility model allows you to create a compact, simple, safe to use and reliable milling machine , which can be widely used both in everyday life and in small-scale production for high-quality processing of wooden blanks of various configurations. 9 s.p. f-ly.

Description

The utility model relates to the field of machine tools, in particular to milling woodworking machines and can be used for milling of wooden workpieces: lateral planing, cutting curved surfaces, including irregular shapes, selection of grooves, tongues, grooves, seams, etc.

Milling machines can be used both in industrial production and in domestic conditions in individual production for processing hard and soft woods, as well as plastics.

The use of tool heads in milling machines with a set of interchangeable knives of various shapes for processing complex surfaces makes them particularly attractive for use in home workshops.

Known and selected as a prototype milling machine for wood processing in the home, containing placed on the base of the rack, the bearing element, at the end of which is pivotally mounted tool head, kinematically connected with the electric drive.

A cutter with cutting knives of the selected configuration is fixed in the tool head. The tool head is installed at the desired machining angle by turning it in the hinge. By turning the rotor of the screw, the handle sets the depth of milling of these sections of the workpiece (RF Patent No. 2089382, IPC V 27 C 5/10, V 23 C 1/10, 1993).

A disadvantage of the known milling machine is the bulkiness of the structure, the presence of rotary parts and the absence of enclosing elements, which makes it unsafe in operation, as well as its limited functionality.

The objective of this utility model is to eliminate these drawbacks and create a compact milling machine, expand its functionality, increase labor productivity, safety and ease of maintenance, ensuring high-quality processing of wooden products.

The problem is achieved in that in a milling machine containing a base, a supporting element mounted on it, on which a spindle with a cutting tool mounted kinematically connected to an electric motor, according to a utility model, the supporting element is made in the form of a machine body, with a table mounted on it, on which the cast stand is fixed with the front and rear guide rails installed on it, a groove is made on the desktop, in which the sliding bar is placed, with the guide bevel installed on it, and edusmotreno slot that accepts a spindle with the cutting tool coupled to the drive motor, and a movable rod with a protective hood of the cutting tool.

To expand the functionality of the machine and the use of many mills with different profiles of cutting knives, the cutting tool can be made in the form of a milling head with replaceable knives or in the form of one or more mounted mills with a cylindrical shank.

The front and rear guide rails are fixed to the table stand with fixing screws.

To configure the machine for a given size of milling of the workpiece, the cast stand is made of two parts, of which the front part with the guide bar attached to it, is made with the possibility of its displacement relative to the rear guide, is carried out by the displacement screw and is fixed with a handle.

To set the guide bevel at a given angle, it is equipped with an installation scale and a handle for fixing the position of the bevel.

The milling head or the milling cutter is fixed on the spindle insert or spindle nozzle (collet clamp) by a cap nut with a certain tightening force.

Setting the height of the cutter is carried out by the handle for moving the spindle along an inclined groove in the spindle housing, and is fixed with a screw.

To copy a workpiece according to an existing sample or template, two removable copy fingers are installed on the desktop.

To change the direction of rotation of the spindle, a switch is installed on the electric motor.

A vacuum cleaner is used to collect chips and wood dust.

The utility model is illustrated by a visual drawing.

The list of positions in the drawing:

1. The basis;

2. The body of the machine;

3. Desktop;

4. The stand;

5. Guide bar (front);

6. A directing level (back);

7. Fixing screw (guide bar);

8. Lock nut (rear guide rail);

9. Lock nut (front guide rail);

10. Screw for moving the front guide bar;

11. Locking handle (screw for moving the front guide bar);

12. A rack of a protective cap;

13. The fixing screw;

14. Barbell;

15. Protective cap;

16. The sliding level;

17. Guide bevel;

18. Handle (fixing the position of the guide bevel);

19. Spindle;

20. Spindle insert;

21. Nut;

22. Handle (spindle movement);

23. Spindle fixing screw;

24. A protective casing of an electric motor drive;

25. Switch with a removable key;

26. Removable copy fingers.

The milling machine contains a base 1, on which the machine body 2 with the drive unit is mounted, a work table 3, on which a cast stand 4 is mounted, consisting of the right and left parts connected by an axis and made to move together and relative to each other.

Attached to the rack 4 are guide rails front and rear 5, 6, respectively, with fixing screws 7.

Rack 4 is attached to the table with fixing nuts 8, 9 for moving the rear and front guide rails, respectively.

The movement of the front guide bar 5 relative to the rear 6 is carried out by rotating the screw 10 and is fixed by the handle 11.

On the side end of the desktop 3, a bracket is made, in the socket of which there is a rack 12 with a fixing screw 13, on which a rotary rod 14 with a protective cap 15 is fixed at the end of the rod. The protective cap 15 serves as a guard for a rotating cutter. On the desktop 3, a groove is made along which the sliding bar 16 moves, with the guide bevel 17 mounted on it with a handle 18 that fixes the position of the guide bevel after it is installed on a scale.

On the desktop of the machine there is a socket (hole) for accommodating the spindle 19 and inserting the spindle 20 or the spindle nozzle (collet clamp) in place of the spindle insert.

A collet is inserted into the conical part of the spindle 19, into the hole of which a milling cutter with a cylindrical shank corresponding to the diameter of the collet is inserted, and is tightened with a nut 21 to a certain force.

The movement of the spindle along the axis to the milling height is carried out by the handle 22, which is moved along the inclined groove of the spindle body and is fixed with a screw 23.

A pulley is mounted on the spindle shaft, connected by a belt drive to an electric motor pulley. The electric motor drive is closed by a protective casing 24.

A switch for the direction of rotation of the spindle is installed on the electric motor, and a switch 25 with a removable key is installed on the machine body.

To copy a workpiece according to a sample or template, two removable copy fingers 26 are provided in the desktop insert.

A vacuum cleaner is used to collect chips and wood dust, which ensures proper working conditions.

To create conveniences at work, a roller support is used, which facilitates the work with long workpieces (> 1000 mm.) Both when feeding the workpiece for processing and transferring the finished product after processing.

Before starting work, it is necessary to install a milling head with cutting knives or a milling cutter on the spindle insert 20.

When performing a different type of milling, not to the entire height of the workpiece (for example, groove selection, etc. - the lower part of the workpiece is not processed), install the necessary number of composing washers on the spindle insert 20 before the mill or milling head, install the milling head and fix it.

When performing milling operations not to the entire height of the workpiece (for example, to select a quarter, etc. - the upper part of the workpiece is not processed), and the height of the cutting part of the cutter or milling head exceeds the size of the milling, it is necessary to lower the milling head partially below the plane of the working table 3.

Install front 5 and rear 6 guide rails in the same plane tangent to the cutting circle of the cutter.

With end-to-end (flat and profile) milling, the rear guide bar 6 remains, and the front guide bar 5 is installed parallel to the rear guide bar 6 with an offset backward by the value of the cut layer and fixed.

When profileless through milling, both guide strips 5 and 6 are installed in the same plane without offset relative to each other, but with an offset to the tangent circle of the cutter cutting by the size of the layer to be cut.

When performing face milling, install the bevel guide 17 on the working table 3. Turn the handle 18 counterclockwise, set the bevel guide 17 on the scale to display the required angle, and turn the position of the bevel 17 17 clockwise.

The direction of rotation of the spindle 19 is set by the switch 26, while the purpose of the guide bars 5 and 6 changes accordingly, the rear becomes front and vice versa.

The direction of rotation of the cutter should be opposite to the direction of supply of the workpiece (towards).

Milling.

When milling, it is necessary to feed the workpiece at a uniform speed. The upper part of the cutter located above the workpiece must be closed with a protective cap 15. The high-speed feed mode and the depth of milling when using certain materials of the workpieces and cutting tools are selected according to the reference book or empirically.

Milling curved edges can be flat and profile, through (across the entire contour of the workpiece) and not through (part of the length of the contour)

To perform curvilinear milling, special devices are used - tsulags, thrust rings and copy fingers. When copying a workpiece according to an existing sample or template, two removable copy fingers 26 can be installed on the desktop 3. The blanks are placed on the copier - a template that has the configuration of the future part and is clamped. The edge of the contour of the template is circled on the copy finger 26, the shape on the workpiece repeats the configuration of the copier template. By changing patterns and cutting tools, you can get various products.

When machining large workpieces (> 1000 mm.), It is necessary to use roller bearings.

The use of the proposed milling machine for woodwork provides through and through milling, flat and profile, face and other types of milling of wooden blanks: transverse planing, cutting curved surfaces, seams of folds, grooves, ridges, grooves, dowels, slots and cutting irregular shapes.

Using the claimed utility model allows you to create a compact, simple, safe to use and reliable milling machine that can be widely used both in everyday life and in industrial production for high-quality processing of wooden blanks of various configurations.

Claims (10)

1. A milling machine containing a base, a supporting element mounted on it, on which a spindle with a cutting tool mounted kinematically connected to an electric motor, characterized in that the supporting element is made in the form of a machine casing with a working table mounted on it, on which a cast stand with front and rear guide strips, a groove is made on the desktop, in which a sliding bar is placed, connected to the guide bevel, and there is also a socket for installing the spindle with a cutting tool vol. 2. The machine according to claim 1, characterized in that the cutting tool is made in the form of a milling head with interchangeable knives or one or more mounted mills. 3. The machine according to claim 1, characterized in that a movable stand is mounted on the desktop, on which a rod with a protective cap of the milling head is mounted with the ability to move. 4. The machine according to claim 1, characterized in that the front and rear guide rails are mounted on a desk stand using fixing screws. 5. Machine according to claims 1 and 3, characterized in that the cast stand is made of two parts, the front part of which with the guide bar attached to it, is mounted with the possibility of its displacement relative to the rear guide. 6. The machine according to claims 1 and 4, characterized in that the front guide is equipped with a displacement screw and a locking handle. 7. The machine according to claim 1, characterized in that the guide bevel is equipped with an installation scale and a handle for fixing the position of the bevel. 8. The machine according to claim 1, characterized in that the installation of the height of the cutter is carried out by the handle for moving the spindle and is fixed with a screw. 9. The machine according to claim 1, characterized in that two removable copy fingers are installed on the desktop. 10. The machine according to claim 1, characterized in that the switch and changes in the direction of rotation of the spindle are mounted on the electric motor.