SE451960B - IS STOLEN - Google Patents

Description

ld 15 20 25 30 35 451 960 _ 2 _ the cutting element of the cutting steel makes it possible to periodically turn the cutting element and consequently the blurred section of the cutting edge an angle of between 5 ° and l5 °. These angular limits are determined by the limited number of teeth that the ratchet wheel has. If the ratchet wheel has 72 teeth, a is the minimum turning angle 69 = 5 ° of the cutting element.

When the ratchet wheel is turned 2 or 3 teeth (tooth divisions), the angle of rotation of the cutting element becomes equal to 5 ° x 2 = = 10 and 50 X 3 = 15 °, respectively. In order to be able to reduce the angle of rotation of the cutting element, the number of teeth on the ratchet wheel must be increased and consequently the diameter of the ratchet wheel, which is impractical or constructively impossible to implement.

The angle of rotation of the cutting element of 5 ° - 150 is approximately equal to the contact angle of the cutting element with the workpiece at cutting depths, which are generally involved in finishing. Thus, when the blurred section of the cutting edge is replaced in turn, it completely leaves the cutting zone to be determined by the contact angle of the cutting element with the workpiece, and the full rod is replaced by a sharpened (non-blurred) section of the cutting edge.

It is known that the thickness of the layer of a workpiece to be removed (felled) by chip cutting is not equal within the limits of the contact angle but varies in accordance with the so-called the triangular layer. Therefore, the loads from shear forces acting on the cutting edge are equal to their length, changing within the limits from the minimum values corresponding to the minimum layer thickness to be removed by cutting to the maximum values corresponds to the maximum layer thickness to be removed.

The part of the cutting edge which is affected by the maximum load becomes dull and loses its cutting properties in the first place, while the remaining part of the cutting edge, which is affected by a lower load, still retains its sharpness. and the cutting properties. However, the fact that the cutting edge becomes partially dull (regardless of the above-mentioned circumstance) forces the cutting element to be rotated in turn and the section of the cutting edge which has been under work to be completely replaced with a new section. The uncut part of the cutting edge thus leaves the cutting zone, which in other words means that this part was not used completely. Such an irrational use of the cutting edge, when its durability is limited only by the maximum loaded part of the cutting edge, leads to the cutting element exhibiting low durability.

In addition, because the cutting element is arranged to be rotated at an angle exceeding 5 °, the dimensions of the workpiece to be obtained become unstable, which means that the workpiece has a low dimensional accuracy. This is because the worn section and the non-worn, sharp, instead of the worn section usable section of the cutting edge are at different radial distances from their respective axes of rotation. The worn section of the cutting edge is separated from the axis of rotation by a smaller distance from the axis of rotation, so the surface of the workpiece machined by the worn section of the cutting edge has larger dimensions than the surface machined by the non-worn section of the workpiece.

Because the cutting element is dimensioned to rotate an angle exceeding 5 °, the machined surface also has a uniform and unstable roughness (unevenness). This is due to the fact that the degree to which the cutting edge participating in the cutting process becomes dull changes continuously, namely increases and that the transition from cutting by means of the blurred section of the cutting edge to cutting by the sharp section of the cutting edge does not take place smoothly but abruptly. The main object of the present invention is to provide a cutting steel with such a mechanism for turning the cutting element, which makes it possible to reduce the angle of rotation of the cutting element, which increases the resistance of the cutting steel and the machining accuracy. and contributes to the machined surface obtaining 11k-shaped roughness (unevenness). This object is achieved according to the present invention by means of a cutting steel, which comprises on the one hand a cutting element which is attached to a shaft, which by means of support means is rotatably arranged in the housing of the cutting steel, and on the other hand a mechanism intended for rotating the cutting element. a ratchet wheel provided with a hub, which is mounted on the shaft supporting the cutting steel, and a ratchet ridge (a ratchet neck), the cutting steel according to the present invention being characterized in that the mechanism for rotating the cutting element further comprises a housing rigidly connected gears, partly a gear which is rigidly connected to the shaft supporting the cutting steel, partly a gear block made up of two axial gears, which is rotatably arranged on the ratchet eccentric with the center axis of the cutting steel (eccentrically with the cutting support arranged hubs and which are in engagement with the gears, and on the one hand a drinking glass-shaped sleeve, which contains the locking member and is provided with a m such a constructive design of the mechanism for rotating the cutting element, which in addition to the hub provided with the hub and the locking means (the locking hook) comprises links in a motion transmitting circuit intended to reduce that movement , which is to be transferred from the ratchet wheel to the cutting element, helps to reduce the angle of rotation of the cutting element by 1-2 orders of magnitude or ten powers (by 7-50 times). Compared with the known cutting steel used as a starting point for the cutting steel according to the present invention. The participating cutting edge is loaded more uniformly, which in other words means that the cutting edge is used more irrationally, whereby the durability of the cutting steel proposed according to the present invention increases 2-3 times compared with the known cutting steel used as a starting point. durability.

In addition, because the cutting element can be rotated a smaller angle, the workpiece has more stable dimensions, ie a more stable dimensional accuracy, since the distance from the cutting edge to its axis of rotation changes insignificantly when the cutting element's rotation angle is small, whereby the workpiece dimensions do not change appreciably. .

The low angle of rotation of the cutting element contributes to the transition from cutting by means of the blurred section of the cutting edge to cutting by means of its sharp section more often and more evenly, as a result of which the roughness (unevenness) of the machined surface becomes more uniform.

In order to be able to obtain the desired angle of rotation, and to reduce the material consumption, e.g. the metal consumption for the production of the cutting steel and to simplify the production of the cutting steel, it is suitable that the gear block (gear unit) is designed in such a way that one gear in the block engages the gear rigidly connected to the cutting steel housing, while the other in the gear the block is engaged with the gear rigidly connected to the shaft supporting the cutting steel.

It is further suitable that the mechanism (device) for rotating the drinking glass-shaped sleeve comprises on the one hand a rod, one end of which is attached to the drinking glass-shaped sleeve and the other end of which is connected to a drive device for rotating the rod, stops formed on the drinking glass-shaped sleeve, which are arranged to interact with a stop formed on the housing of the cutting steel and are intended to limit the rotational movement (rotation angle) of the drinking glass-shaped sleeve and change its angle of rotation in depending on the machining conditions of the workpiece, and on the one hand a spring, the ends of which are attached to the drinking glass-shaped sleeve and to the cutting steel housing, respectively, and which are intended to return the drinking glass-shaped sleeve to the initial position.

Brief Description of the Drawing Figures The invention is described in more detail below with reference to the accompanying drawing, in which Fig. 1 shows a longitudinal section through the cutting steel according to the present invention, Fig. 2 shows a section along the line II-II in Fig. 1, Fig. 3 shows a section along the line III-III in Fig. 1, Fig. 4 shows a section along the line IV-IV in Fig. 1 and Fig. 5 schematically shows how a workpiece is machined with the snare steel according to the present invention.

Preferred embodiment of the invention The cutting steel proposed according to the present invention, shown in Fig. 1, comprises on the one hand a cutting element 1, which is fastened to a shaft 2 by means of a nut 2, which is rotatably mounted in the housing 4 of the cutting steel by radial support means 5. and 6 and an axial support member 7 constructed in the form of a pressure or bearing bearing, and on the other hand a mechanism intended for rotating the cutting element 1, which comprises a ratchet wheel 8 provided with a hub 9, which is mounted on the cutting steel. supporting the axis of rotation 3, and a locking member (a locking hook) 10 (Fig. 2).

The cutting steel according to the present invention is characterized in that the mechanism for turning the cutting element 1 further comprises partly a gear wheel 11 (rig. 1) rigidly connected to the housing of the cutting steel 4, and a gear 12, which is rigidly connected to that cutting steel by means of a pin 13 supporting pivot shaft 3, partly one of two axial gears 14 and 15 gear blocks, which are rotatably mounted on the hub 9 of the ratchet wheel 8, which is arranged eccentrically in relation to a cutting steel supporting shaft 3. , and engages with the gears 11 and 12, and on the one hand a drinking glass-shaped sleeve 16, which contains the catch 10, which is supported by a shaft pin 17 (Fig. 2) and is tensioned (spring-loaded) by means of a spring arranged in a screw 19 18. stop or locking rings 20 (Fig. 1) and 21 are arranged to prevent the tip-blown sleeve 16 from moving axially.

The gear block gear 14 is in engagement with the gear 11 rigidly connected to the housing 4, while the gear 15 in the gear block is in engagement with the gear 12, which is rigidly connected to the shaft 3 supporting the cutting steel. The end face and lock of the ratchet 20 is arranged. a spring 22, which is intended to eliminate the axial displacement of the axis of rotation 3.

A mechanism for rotating the drinking glass-shaped sleeve 16 comprises a rod 23 (Fig. 3), one end of which is fastened to the drinking glass-shaped sleeve 16 by means of a nut 24 and a locking nut 25 and whose other end is connected to one not shown in the drawing figures. drive device intended for rotating the rod 23, which may be mechanical, for example in the form of an immovable stop on a machine tool, electric, pneumatic or combined. The drive device can be started according to a program or by means of a stop.

Attached to the drinking glass-shaped sleeve 16 by means of nuts 24 and 26 are stops 27 and 28, respectively, which are arranged to cooperate with a stop 29 formed on the cutting steel housing 4 and are intended to limit the rotational movement of the drinking glass-shaped sleeve 16. Arranged between the housing 4 and the drinking glass-shaped sleeve 16 is a spring 30 (Fig. 2), the ends of which are attached to the drinking bubble-shaped sleeve 16 and to the cutting steel housing 4, respectively, and which are intended to return the drinking glass-shaped sleeve 16 to the exit drawer. the shell steel housing 4 is 10 15 20 25 30 35 451 960 _ 8 ._ provided with a shaft 31 (Fig. 1), which is intended for fastening (clamping) of the cutting steel in a steel holder (cutting steel holder not shown in the drawing). ) of a machine tool. to g g Fig. 4 shows more clearly how the gear 14 engages with the gear 11. Fig. 4 also shows the hub 9 of the ratchet wheel 8, which is arranged eccentrically, namely with an external element 1 in relation to the shaft 3 supporting the cutting steel.

The cutting steel designed according to the present invention operates in the following manner. p When machining a workpiece 32 (fig.5) is periodically affected - as the part 33 of the cutting edge 34 of the cutting element 1, which is to be surrounded by a so-called contact angle of the cutting element 1 with the workpiece 32 - the drive device intended for rotating the drinking glass-shaped sleeve 16, connected to the end of the rod 23, which by means of the rod 23 rotates the drinking glass-shaped sleeve at an angle pf (Fig. 3), which is determined by the relation:, ¿'= -åš: - (2c + l) degrees, aäl ~ ¶ = 3,14; C is an integer, which as a rule is at most 7 and is determined by the position of the stop 28 in relation to the stop 2? and which depends on the actual machining conditions of the workpiece; z is the number of teeth on the locking pin 8.

At the same time as the drinking glass-shaped sleeve 16 is rotated, the ratchet 10 arranged in the rivet 16 rotates the ratchet wheel 8 at an angle (Fig. 2), which is determined by the connection dßg = 222: - c degrees.

The hub 9 arranged with the eccentricity e (Figs. 1 and 4), which is rotated together with the ratchet wheel 8, causes the gear wheel 14 to unroll the gear wheel 11. The gear 15, which together with the gear 14 constitutes the gear block and is in engagement with the gear 1a, rotates- at the same time as 10 the rotating gear 12 together with the shaft 3 and the cutting element 1 an angle.W (fig. 5), which is given by the relation zz V = (1 - 1 --ÅL--) degrees, 22 24 where Zl is the number of rows on the cog wheel ii; the number of teeth on the gear is 14, the number of teeth on the gear is 15; 4 is the number of teeth on the gear 12.

After the cutting element 1 has been rotated, the torsion-type spring 30 returns the drinking glass-shaped sleeve 16 to the initial position. The workflow of the cutting steel is continued again.

The cutting steel proposed according to the present invention is technically simple to produce, has a low weight and a long service life, is reliable in operation and unsightly against vibrations. The lubricating element of the cutting steel thus designed has a 2-3 times higher resistance compared to the cutting element in known cutting steels of this type. The cutting steel according to the present invention provides high machining accuracy, while the surface of the workpiece machined with the cutting steel has uniform roughness (uniform surface machining quality).

Industrial Applicability The special steel according to the present invention can most, effectively be used in companies in the mechanical engineering industry for chip cutting and semi-finishing of precise workpieces with large dimensions, for example the workpieces with a diameter of up to 2000 mm and a length of up to 20,000 mm made of metals, their alloys and non-metals.

The cutting steel according to the invention can also be used for machining accurate workpieces with small dimensions, for example mass-produced parts with a diameter of 50-500 mm and a length of 50-500 mm.

Claims (3)

10 15 20 25 .Bo 35 451 960 _ lo - 3 Plmmnmxnnv A cutting wire comprising on the one hand a spoke element (1), which is fastened to a axis of rotation (3), which by means of support means (5, 6, and 7) is rotatably mounted in the housing (4) of the cutting steel, and on the other hand a means for rotating The turning mechanism (1), which comprises a ratchet wheel (8) provided with a hub (9), which is mounted on the rotating shaft (3) supporting the cutting steel, and a ratchet (10), characterized in that the mechanism for turning The cutting element (1) further comprises on the one hand a gear (11) rigidly connected to the cutting steel housing (4), on the other hand a gear (12) rigidly connected to the shaft (3) supporting the cutting steel, and on the other hand one of two axial gears ( 14 and 15) built-up gear block, which is rotatably mounted on the hub (9) of the ratchet wheel (8), which is arranged eccentrically with the pivot axis (3) supporting the special steel, and which (the gear block) is in engagement with the gears (11 and 12). ), and a drinking glass-shaped sleeve (16), which contains the catch (10) and is provided with a mechanism for rotating the sleeve (16). Cutting steel according to claim 1, characterized in that one axial gear (14) in the gear block engages with the gear (11) rigidly connected to the housing (4), while the other axial gear (15) is in engagement with the xug gear (12) rigidly connected to the shaft (3) supported by the cutting steel. Cutting steel according to claim 1, characterized in that the mechanism for rotating the drinking glass-shaped sleeve (16) comprises on the one hand a rod (23), one end of which is attached to the drinking glass-shaped sleeve (16) and the other end of which are connected to a drive device for rotating the rod (23), partly stops (27 and 28) formed on the sleeve (16), which are arranged to cooperate with a stop (29) formed on the housing of the cutting steel (4) and are intended to limit the rotational movement of the drinking glass-shaped sleeve (16) in dependence on the actual working conditions of the workpiece, and. and a spring (30), the ends of which are attached to the drinking glass-shaped sleeve (16) and to the housing of the cutting steel (4), respectively, and which are intended for returning the drinking glass-shaped sleeve (16) to the initial position.