HU195932B - Face milling cutter - Google Patents

Abstract

A face milling cutter comprises a body (1) with holders (2) fixed to it and carrying the cutters (3), and with mechanisms for setting cutters (3) in one common plane. The milling cutter further comprises a number of mechanisms for adjusting the cutters along the plane, that number corresponding to the number of the holders (2) and each mechanism being executed as a roll (6) provided with a land (7) oriented at an angle alpha to its axis.

Description

BACKGROUND OF THE INVENTION The present invention relates to a face mill which can be used for machining materials.

A front milling cutter is known which comprises a housing, with holders mounted on each knife, and means for positioning the knives on a plane {see E.G.

Konovaljov et al.: Progressive Schema for Rotational Cutting of Metals -, Progress Schemes of Metal Rotation -, Nauka i tyehnika, Minsk,

206, 1972).

The knives are a tool screw that aligns the blades with a head and thread trained to fit the key. The head rests on the face mill housing through the washer, and the thread runs in the knife holder and forms a screw joint with it. As the screw is rotated, the knife holder is displaced along its own axis, thus aligning the knives in a plane.

A tool for aligning the knives allows the knife to be adjusted with accuracy depending on the transmission of the screw and the screw holder of the knife holder. The gear ratio determines the degree of axial displacement of the knife holder relative to the value of the screw rotation angle, but depends on the diameter and thread pitch of the screw joint. The smaller the thread pitch and the larger the diameter, the higher the gear ratio and the more accurate the blade alignment is. However, since there is a limit to the thread diameter and pitch, this also limits the accuracy of the knife alignment (up to 0.05 mm) and this limit is not sufficient to create machined surfaces that have an increased quality and accuracy of machining. there are requirements.

In addition, the known structure does not provide adequate axial hardness of the blades, although, on the other hand, there are increased requirements due to the use of a milling ratchet when cutting the knife into and out of the workpiece. The threading of the screw joint is thus subject to a very variable load, which causes the knife to vibrate due to the small size of the screw bearing surface of the thread. Vibration, in turn, causes deterioration and unevenness of the machined surface, which reduces accuracy, especially at the edges of the workpiece where impact occurs.

It is an object of the present invention to provide an end mill having a tool for adjusting the blades in a plane, which enables the production of a high precision and high quality machined surface.

The problem has been solved by creating a face mill, each of which holds in its housing a knife, and which is provided with means for aligning the knives, and provided with adjusting means, each of which is configured as a flattened shaft at an angle to the axis of the axis. The center of the shaft is located in a cavity delimited by parallel walls formed in the holder, and its ends are in a bore which is drilled at an angle to the wall of the holder cavity in the milling housing, this angle being the inclination of flattening to the centerline of the shaft.

Thanks to the design of the blade in-plane adjusting means for adjusting the blade in the plane in relation to the prototype, the design of the blade with a flattened shaft which performs the function of a wedge having an overall order of magnitude larger than screw connection. This contributes to increasing the quality and accuracy of machining by one class.

In addition, in contrast to the prototype adjusting screw, the flattened shaft, centered in the holding cavity and ends in the housing bore, increases the axial stiffness of the blades, since, in addition to its main function of flattening the blades, a solid collision of a knife holder.

In order to achieve even more precise control of the blades in the plane, it is expedient to provide the end mill with a number of additional adjusting means corresponding to the number of holders. Each of these is designed as a body with a shank and a head. The body is housed in a cavity outside the housing which interacts with non-parallel walls through the side surfaces of the body head.

Thanks to the construction of the additional control device with a head with body, which causes a slight axial elastic deformation of the holder, the blades provide further, more precise control of the knife, which allows one more class to increase the precision and quality of machining.

The invention will now be described in more detail with reference to a specific embodiment, with reference to the accompanying drawings. The

Figure 1 is a full view of the front end mill of the present invention;

Figure 2 is a sectional view taken along the line II-II in Figure 1.

The front milling cutter according to the invention, shown in Fig. 1, is provided with a housing 2 with fastening fittings (not shown), each carrying a knife 3.

Λ front cutter for the 2 holding sleds? '. The horse contains the knives 3, including tools for leveling. Each of these devices is provided with 4 screws, which have a head and a thread fitting to the key. The thread is guided in the holder 2 and forms a screw connection therewith. Below the head of the screw 4 is a plate-shaped spring washer 5 which rests on the housing 1.

According to the invention, the end mill has a number of means for adjusting the blades 3 relative to the plane of the blades 3, which are formed as an axis 6 with a flattening 7 formed at an angle α with respect to the center line of the shaft. The end pin 8 is provided with a washer 9 and a nut 10. The central part of the shaft 6 is located in the cavity 11 in the holder 2 formed by parallel walls 12, 13. The ends of the shaft 6 are in a bore 14 which is drilled into the cutter housing 1 at an angle α to the wall 12 of the cavity 11 of the holder 2.

This is due to the fact that the wedge gear is the product of two gear ratios: the actual wedge and the thread of the 8 pin.

When adjusting the blades 3 to the plane, one rotation of the nut 10 causes the blades 3 to be displaced by a full order less than the same rotation of the screw.

According to the invention, the front cutter is provided with a number of additional adjusting means corresponding to the number of holders 2 for adjusting the blades 3 in relation to the plane. Each of these is formed as a body with 16 legs and 15 heads. The body 16 has a base 17 and a nut 18, and is housed in a cavity 19 formed in a cavity 19 formed by non-parallel walls 20 and 21 formed outside the housing. The head 15 interacts (in contact) with the side surfaces 22 and 23 of the head 15 with the non-parallel walls 20, 21.

The face mill of the present invention operates as follows.

After securing the cutter on the machine tool (not shown) and aligning the knives 3 with the screws 4 and a flat plate (not shown), fine adjustment of the knives 3 on the plane is made. To do this, a display device (not shown) of appropriate measuring accuracy (not shown) containing a programmable insert is placed on the machine tool table. The knife 3 is led to the gauge mount and the display of the display device is fixed. This operation is repeated for the other 3 knives. If the indications of the device differ from each other, the nut 6 is rotated by rotating the nut 10 so that the holder 2 is flushed onto the surface 12 and moves the holder 2 with the knife 3 to the desired position which is fixed by the display device. The control accuracy reaches 0.003 mm.

The holder 2 is then secured in the cutter housing.

During the fixing of the holder 2 (and consequently the knife 3) a deviation from the adjusted position has occurred. To eliminate this misalignment and further control the knife 3 in the plane, the head 15 is rotated by rotating the nut 18, the side surfaces 22 and 23 of the head 15 interacting with the non-parallel walls 20 and 21 of the cavity 19, This causes a displacement of the holder 2 along its own axis. The extent of this displacement is small enough to allow the knives 3 to be adjusted in the plane with an accuracy of 0.001 mm.

The workpiece is then machined.

the milling cutter of the present invention is simple in design, reliable and vibration resistant. Due to the extremely precise leveling and high axial hardness of the blades, a maximum roughness of 0.01 mm per 100 mm and a roughness of R = 0.63 µm per 100 mm can be achieved.

The invention can be successfully applied in the machine manufacturing industry to precisely smooth workpiece surfaces rather than sanding.

In addition, the invention may be used in the finishing of workpieces.

Claims (2)

1. An end mill having a housing having a knife holder in its housing, and an end mill that adjusts the blades in a plane Characterized by a number of blades (3) having means for adjusting the blades (3) in the plane, each of which is a shaft (6) having a lela45 polishing (7) at an angle (α) to the axis of the axis. is formed with a central portion in a cavity (11) formed by parallel walls (12, 13) in the holder (2), and its ends at an angle (ec) to one of the walls of the cavity (11) of the holder (2) ) are located in a bore (14) arranged at an angle (?) equal to the inclination of the flattening (7) relative to the center line of the shaft (6). The face mill of claim 1, 55 characterized in that a number of supports (2) is provided with means for further adjusting the blades (3) in the plane, each of which is in the form of a body (16) and a head (15) arranged in a cavity (19). wherein the cavity (19) is housed outside the housing (1) in the holder (2) and has non-parallel walls (20 and 21) interacting with the side surfaces (22, 23) of the body head (15).