UA16398U - Method for measuring the main back angle of a spiral drill - Google Patents

Abstract

The proposed method for measuring the main back angle of a spiral drill consists in inserting the drill in a chuck with an angular scale of 360 degrees, installing a dial indicator with a tip that can move in two mutually perpendicular planes, rotating the chuck with the drill, reading the indications of the indicator that correspond to the different angular positions of the drill, and determining the change of the main back angle along the cutting edge of the drill. The main back angle is accomplished in the plane that is perpendicular to the axis of the drill.

Description

Description of the invention

The useful model refers to mechanical engineering, namely to control and measuring equipment. 2 A known method of measuring the main rear angle of a spiral drill, the essence of which is that a special electrical contact device is used for its implementation, namely, the main rear angle is measured by rotating the movable part of the device relative to a given point on the main cutting edge of the tooth in a circle until the contact sponge of the device, which is under voltage, will not touch the metal tool and at the same time the electric circuit will be closed, the light bulb will flash and at this moment the angle will be counted on the stationary 70 scale, which is drawn on the base of the measuring head. (Borisov B.Ya. Laboratory workshop on metal cutting. - Moscow: Gosnauchtekhizdat, 1963. - p. 12 - 13.

The disadvantage of the known method is the measurement error, which is caused by the impossibility of clearly ensuring the movement of the moving part of the device in a circle.

There is a known method of measuring the main back angle of a spiral drill using an instrument microscope. 79 The essence of this method is as follows. The main back surfaces of the drill are covered with a thin layer of red nitro varnish and lines are drawn on the surfaces with a needle fixed in a spring-loaded axis, which is placed parallel to the axis of the drill. To measure the angle, the drill is placed on the microscope table in a prism placed parallel to the horizontal line visible in the eyepiece. This line is combined with the axis of the drill. The point of intersection of the line with the cutting edge of the drill is combined with a horizontal line by turning the drill around its axis.

By longitudinal movement of the table, the intersection of mutually perpendicular lines of the microscope is combined with the point of intersection of the line and the cutting edge of the drill. The vertical line of the microscope is tangent to the circle of rotation of the considered point on the cutting edge. The section is turned to the left and a vertical line is set tangentially to the line on the main back surface of the drill. The magnitude of the main rear angle is recorded in the upper eyepiece. (Borisov B.Ya. Laboratory practice for metal cutting. - M-K.: Gosnauchtekhizdat, 1963. - p. 12 - 1314. 29 The disadvantage of the known method is the measurement error caused by the phenomenon of parallax. -o

There is a known method of measuring the main back angle of a spiral drill, in which the drill is installed in a chuck, and the control pin is placed on the back surface of the drill at a given point of the main cutting edge on a certain diameter of the drill and the drill is turned to a given angle, while the pin slides along the main back surface, and recorder, which is connected to a pin by means of a lever system, traces a curved line on a paper tape fixed on a drum. After that, a tangent is drawn to the obtained curve, Ge"! measure the segments on the x-axis and, accordingly, on the y-axis, and according to the formula so i tam og) "i dok students back h- determine the value of the main back angle. Here in formula (1) 7.5 is a constant number that characterizes the transmission mechanism; ui - ordinate, mm; xi - abscissa, mm; Y, - the specified diameter of the drill circle, on which the specified angle is measured, mm. The actual value of the main rear angle in the normal secant plane оу) is determined by "zo According to the formula - in domo Vij;" where фФ is the main angle of the drill in the plan, g. (Egorov SV., Chervyakov A.G. Cutting of construction materials and cutting tools. Laboratory practice. Textbook for universities. 2nd ed., reworked. - M.: Vyssh school, - 1975. - pp. 34 - 35. Ttretyakov, I.P., Arshinov, V.A., Kiselev, N.F., Sinopalnikov, V.A. Laboratory work on the course "Metal cutting". - M. : Mashinostroenie, 1965. - pp. 79 - 82.4.

The disadvantage of the known method is the impossibility of clearly placing tangents to the curves, as well as (95) inconsistency of dimensions in the formula for determining the size of the main rear angle. c 50 The closest to the proposed method is the method of measuring the main back angle of a spiral drill, the essence of which is that a spiral drill with a diameter of 4 is installed in a chuck on which there is an angle scale

IR f) is divided into 3602 and which is fixed in the rolling support, and the clock-type indicator head is fixed in a mechanism that allows for its movement in two mutually perpendicular directions, and the probe of the indicator head is set to a given diameter at the point of the main cutting edge, and the drill is turned to angle xu, the value of which is limited by the main cutting edge and the curve of the intersection of the main rear surface with the surface of the groove, and the value of K, the fall of the curve formed by the intersection of the main rear surface and a cylindrical surface with a diameter of 4, coaxial with the axis of the drill, is recorded on the indicator head at a certain value of tu. (Bersegyants R.O., Mezhuev B.N. Teaching manual for laboratory work on the course "Rezanie metalov". - M.: VZPI, 1975. - p. 96 - 98.) because the disadvantage of the known method is the measurement error, which caused by the arbitrary determination of the rotation angle t, since the curve describing the main back surface of the drill may not be monotonous, as well as the uncertainty of the plane in which the main back angle of the drill is measured.

The basis of a useful model, a method of measuring the main angle of a spiral drill, is the task of increasing the accuracy of monitoring the value of the main back angle of a spiral drill, in which a spiral drill with a diameter of 4 is installed in a chuck, on which there is an angle scale divided by 3605: and which is fixed in a support rolling, and the clock-type indicator head is fixed in a mechanism that allows for its movement in two mutually perpendicular directions, and the probe of the indicator head is set to a given diameter at the point of the main cutting edge, and the drill is turned to an angle whose value is limited by the main cutting edge and the curve the intersection of the main rear surface with the surface of the groove, and the value K is recorded on the indicator head, the fall of the curve formed by the intersection of the main rear surface and the cylindrical surface with a diameter of y, coaxial with the axis of the drill at a certain value и, and the measurement of the main rear angle is carried out in the section plane n perpendicular to the axis of the drill, the probe of the indicator head is set at the point Хо of the main cutting edge, which is located at the diameter ахо-4, where а is the diameter of the drill, 70 turn the drill to a certain angle х equal to (2-5)2 and measure according to the readings of the indicator of the drop head K and the curve formed by the intersection of the main rear surface with the transverse plane passing perpendicular to the axis of the drill through the point kho, similarly repeat the following rotations of the drill and times (i1-5-10), register the readings of the indicator head and determine the drop K ho, the obtained data in the Cartesian coordinate system are represented by the corresponding points, then the obtained experimental data are approximated by the equation of the nth order y-(x), 75 find the first derivative of y and by substituting x-0 get the value of the tangent of the angle, - y (x-0th the slope of the tangent placed at the point ho to the curve of the intersection of the main back surface and the cutting plane, which passes perpendicular to the axis of the drill through the point ho and in the direction of the axis OX (abscissa), where - 5 l vis start ho with doho, according to the formula dk, Idih -8,,3- -she,,- -U(x-0) and from here determine the value of the main back angle in the plane perpendicular to the axis of the drill o,), which is equal to Fk; axidi- in ih-c)) l then set the probe of the indicator head to the initial position, move the indicator head horizontally from left to right by the value of Ii, for which set the probe of the indicator head on the diameter of 9,,-9,,-2-Ц dr o , move the indicator head perpendicular to the axis of the drill until the probe of the indicator indicator head contacts the point xi on the main cutting edge of the drill and create a preliminary tension in the indicator head, turn the drill to a certain angle equal to (2-5)32 and measure according to the readings of the indicator head of the fall Ku, then repeat the above-described method of determining the value of the main back angle in the plane perpendicular to the axis of the drill and find the angle o, on the diameter ah, step by step set the probe of the indicator head at the points ho, Xz, ... Khi on the corresponding diameters au », duhz, ... dhl, POvVToOry the methods described above and find the corresponding values of the main back angles in the planes perpendicular to the Geo) axis of the drill oo" and х3» г» охо based on these data, the dependence о,-Ка,) is built and the change of the main rear angle о, с along the length of the main cutting edge is evaluated. 3 Fig. 1 shows a diagram of installing a spiral drill and a clock-type indicator head for -- measuring the fall of the back of the head Ku; Fig. 2 shows the scheme of setting the probe of the indicator head to a different diameter; Fig. 3 shows the placement of probes for measuring different diameters; Fig. 4 shows the curve formed by the intersection of the main rear surface with a cutting plane that runs perpendicular to the axis of the drill and the value of the desired angle.

The method is implemented as follows. t s The measurement of the main back angle of the spiral drill is carried out in the cutting plane "" perpendicular to the axis of the drill. " The spiral drill 1 with a diameter of 4 is installed in the chuck 2, which has an angle scale divided by 36059 and which is fixed in the rolling support 3. The indicator head clock type 4 is fixed in the mechanism 5, which allows to ensure its movement in two mutually perpendicular directions. The probe of the indicator head is installed at the point Xo of the main cutting edge, which is located on the diameter Xo-a. b Turn the drill 1 to a certain angle x equal to (2-5)2 and measure according to the readings of the indicator head 4 Fig. 1 the fall of the curve of the intersection of the main back surface with the cutting plane passing perpendicular to the axis o of the drill through the point ho Fig. 4. Similarly, the turns of the drill 1 are repeated times (1-5-10) and the readings are recorded

Ge) 20 of the indicator head 4 and determine the fall of Kho, the curve formed by the intersection of the main rear surface with a cutting plane that passes perpendicular to the axis of the drill through the point ho and set the probe of the indicator head to the initial position.

The obtained data are represented in the Cartesian coordinate system by the corresponding points.

The obtained experimental data are approximated by an equation of the nth order in their). Find the first derivative du tk c and by substituting x-0 get the value of the tangent of the angle ide, -U'-o) of the slope of the tangent placed at the point Xo to the curve of intersection of the main back surface and the cutting plane that passes perpendicular to the axis of the drill through the point Xo and in the direction axis OX (abscissa) Fig.4. Knowing what is going,, There will always be a negative value, because the angle 60 is obtuse (from 3; ido, Fig4 is determined by the formula: more, - их -8,, )- -more uk, -Х их -03 - From here, ho 2 determine the value of the main back angle in the cutting plane perpendicular to the axis of the drill and which passes through the point ho aho" Which is equal to su, - axidi- In their) ! because Then the probe of the indicator head 4 is installed at point x; of the main cutting edge of the drill on the diameter

9, where hell o, where | the amount of horizontal, left-to-right movement of the indicator head, and move the indicator head perpendicular to the axis of the drill until its probe contacts the point x,; on the main cutting edge of the drill and create a preliminary tension in the indicator head of Fig.3. Again, drill bit 1 is turned to a certain angle (2-5) and measured according to the readings of the indicator head 4 in Fig. 2 of the drop of K Kh. In the future, repeat the techniques described above and find the main back angle in the plane perpendicular to the axis of the drill at the point ho, on the diameter du.

Step by step, the probe of the indicator head is installed at the points Xo, Xz, ... Khaya on the corresponding diameters du", duz, 2. blya, repeat the above methods and find the corresponding values of the main back angles in the planes perpendicular to the axis of the drill ou2" xx3" "2" bhp Fig. Z

According to these data, oo; wow". oho construct the o-Ka,) dependence and evaluate the change in the main back angle o, along the length of the main cutting edge.

An example of a specific implementation of the method of measuring the main back angle of a spiral drill.

The measurement of the main rear angle was carried out using a spiral drill with a diameter of 4-28 mm and a watch-type indicator head with a price of 0.001 mm division, and the above-mentioned known mechanism.

We measured the amount of drop K, the curve formed by the intersection of the main rear surface with a cutting plane passing perpendicular to the axis of the drill through point x, placing the probe of the indicator head at the point of the main cutting edge at a diameter of 28 mm. The drill was turned to an angle of 59 five times, and each time the fall of K, was recorded. The obtained values of the drop K, on a diameter of 28 mm, were entered in the table. Then the drill was returned to its original position, in order to change the position of the probe of the indicator head to a different diameter of the position of point x on the main cutting edge. edges, mm t o hi occiput Ku, MM so zo F o what , (Se)

According to the obtained experimental data, a circular scale was built in the Cartesian coordinate system with the center О at the origin of the coordinates with a step of 52, and the value of the drop K was set at a diameter of 28 mm (Fig. 4). --

We approximated the obtained results by a curve of the nth order and obtained the equation of the curve of the form:

U. 1-X aayukviph. их, « в в в в в: where K is the radius of placement of point x on the main cutting edge, mm; - с х - running value of the argument in the Cartesian coordinate system, mm; and a - drop K, at the angle of rotation of the drill t,/-92, MM. -» The analysis of the experimental data presented in the table showed that the fall of K, at the turning angle of 52, has a constant character, that is, the curve can be represented by an Archimedean spiral.

We determined the first derivative of this equation, since it characterizes the tangent of the angle of inclination of the tangent - placed at the point x with coordinates (0; Ku), to the curve formed by the intersection of the main back surface and

FO of the cutting plane passing perpendicular to the axis of the drill through the point x to the direction of the axis OX (abscissa) and received: x2 V V

IR e) K-1--t 1--ya

Like uv

Based on the above, we determined the tangent of the angle ide, the slope of the tangent placed at the point x with 22 coordinates (0; K,), to the curve formed by the intersection of the main back surface with the cutting plane, which passes perpendicular to the axis of the drill through the point x, to in the direction of the OX axis. Equating х-0, we got Жхво- -в

Knowing that a determined the value of the main back angle in 60 er shchi tot -8 c) - -de,re -U ike-sh yi- c) plane perpendicular to the axis of the drill, which passes through the point ho. b5

- ' - a - poh, vus) yav (8, - a 1.31 jaksiya --|-atsiya ---|- и 583.

E 28

So, the main rear corner of the drill in the plane perpendicular to the drill axis at the point of the main cutting edge Xo on the diameter of 4-28mm ох 295834".

IS

Claims (1)

The formula of the invention is a method of measuring the main back angle of a spiral drill, in which the spiral drill is installed in a cartridge, which contains an angle scale divided by 360 g, and which is fixed in a rolling support, and a clock-type indicator head is fixed in a mechanism that allows to ensure its movement in two mutually perpendicular directions, the probe of the indicator head is set to the specified diameter at the point of the main cutting edge, and the drill is turned to the rotation angle y , the value of which is limited by the main cutting edge and the curve of intersection of the main back surface with the surface of the groove, and the value is recorded on the indicator head | the fall of the curve formed by the intersection of the main back surface and x of the cylindrical surface with a diameter of 4, ; coaxial with the axis of the drill at a certain value r, which differs in that the measurement of the main back angle is carried out in the cutting plane, perpendicular to the axis of the drill, the probe of the indicator head is set at the point x of the main cutting edge, which is located on the diameter 4 -4, where 4 - the diameter of the drill, the drill is turned to a certain angle 7, which is equal to (2-5)2 and C x is measured according to the indicators of the indicator head of the fall in the curve formed by the intersection of the main rear surface xo with the cutting plane passing perpendicular to the axis of the drill through the point xo " similar to 90 repeat the following rotations of the drill ; times (i-5-10), register the indicators of the indicator head and determine the values | 0, approximate the obtained experimental data by the equation of the nth order y - r(x) , find the first derivative of , substituting x -00, determine the value of the main back angle in the plane, -- ох perpendicular to the axis of the drill su which is equal to pu агсид | Ук , then set the indicator probe of the second head to the initial position, move the indicator head horizontally from left to right by the amount of Ii, for which the probe of the indicator head is set at a diameter of 4 -4.--2 Tsve move the indicator head perpendicular to the axis of the drill until the probe of the indicator head the head does not come into contact with the dot and ssh. US . US US and? хи on the main cutting edge of the drill, and create a preliminary tension in the indicator head, turn the drill to a certain angle 7, which is equal to (2-5)2 and measure according to the indicators of the indicator head the values Ко, И хри1 - then repeat the above-described method and find the angle b on a diameter of 4 І: gradually install the probe x of the indicator head at points on the corresponding diameters, repeat the indicator Zha,zhii SK for the corresponding diameters Zo r, the methods described above and find the corresponding values of the main rear angles in the planes perpendicular to the (se) axis of the drill, based on these data, build a dependence -- ( ) and evaluate the change of the main RY b, but M UP vn Y) 7 in the rear corner and along the length of the main cutting edge. 60 b5