RU2490113C2 - Automatic control over dressing of aligned surfacing wheels - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to metal-working and may be used in automotive industry and production of bearings for automatic dressing of grinding wheels over face surfaces at specialised NC grinders. In compliance with proposed method, abrasive removal depth is adjusted by amplitude of sound signals recorded at every pass of dressing tool generated by sound pressure sensors. Sad sensors are arranged directly nearby end faces of face grinding wheels. Note here that dressing interval is limited by setting of amplitude of sound signals selected before dressing by pre-dressed face-grinding wheels so that required dressing capacity and quality are ensured.

EFFECT: decreased consumption of grinding wheels in dressing, faster process.

2 dwg

Description

The invention relates to metalworking and can be used in the automotive and bearing industries for the automatic dressing of grinding wheels (HK) on end surfaces on specialized grinding machines with programmed control for two-sided face grinding (DTS).

A known method of monitoring the condition of the cutting tool (see Japan application No. 52-163861, class B23Q 17/00, publ. 16.12.81), which consists in determining the degree of wear of the cutting edge of the tool by the amplitude and frequency of vibrations recorded by the vibration sensor by summing the amplified signals and comparing them in the comparator, while the total vibration energy for a certain time interval is compared with the set value.

The disadvantage of this method is the low accuracy of monitoring the state of the tool during cutting due to the remoteness of the vibration sensor from the cutting zone and the associated damping of the signals generated in this zone, as well as the inability to control this state.

There is also a method for monitoring the state of a cutting tool, including recording and analyzing an acoustic emission signal during processing of a part with a tool, in which the analysis is performed by measuring the characteristics of the acoustic emission cepstrum over time (see AC SU 1748995 A1, class B23Q 17/00, 1992 g.).

The reasons that impede the achievement of the technical result indicated below when using the known method include its low efficiency and low accuracy of monitoring the state of the cutting tool due to the influence of the nodes of the technological system on the frequency of the carrier signal, while there is no control over the state of the cutting tool.

There is also known a method of automatically controlling the cutting ability of an abrasive wheel on a conductive bond, in which electrochemical dressing of the wheel is carried out, and the process of electrochemical dressing is controlled by changing the dressing current density within 0.2 ... 0.6 A / cm ² when the cutting power is changed in the process grinding (see US Pat. No. 2268119, Russian Federation, CL B23H 7/00, publ. 20.01.06), adopted as a prototype.

The reasons that impede the achievement of the technical result indicated below when using the known method include the narrow specialization of this method, since it is applicable only for dressing abrasive wheels on a conductive bond and cannot be used in DTS.

The closest method of the same purpose to the claimed invention in terms of features is a method for automatically controlling the dressing process of coaxially mounted end grinding wheels, in which intermittent macro-relief is formed on the ends of grinding wheels in the form of alternating circular grooves in the process of dressing circles according to the control program from the CNC machine tool ( see Pat. No. 2184025, Russian Federation, class B24B 53/02, published on 06.27.02), adopted as a prototype.

The reasons that impede the achievement of the technical result indicated below when using the known method adopted as a prototype include the inability to control the abrasive removal depth when dressing grinding wheels, since the parameters of the discontinuous macrorelief formed during the dressing process are uniquely determined by the path of the tool in the control program from the CNC system machine tool.

The invention consists in the following. In order to reduce the consumption of HF during the dressing process, reduce the dressing cycle time and expand the technological capabilities of the method, the abrasive removal depth is controlled by the amplitude of the sound signals recorded in each of the passes of the power tools from sound pressure sensors located directly at the ends of the end grinding wheels, at this time, the editing time is limited by the value of the amplitude setting of the audio signals established before the start of editing using pre-aligned end-faces from the conditions of ensuring the necessary cutting ability of the circles for a given quality of dressing, which allows to reduce the number of dressing passes and to terminate the dressing cycle in time to achieve the required cutting ability of the barcode, as well as expand the technological capabilities of dressing by using the proposed method regardless of the type of shear barring and type grinding.

The technical result is a reduction in the consumption of grinding wheels in the process of dressing and the time of the dressing cycle, as well as expanding the technological capabilities of the proposed method.

The specified technical result in the implementation of the invention is achieved by the fact that in the known method for automatically editing the coaxially mounted face grinding wheels by removing the abrasive layer from them by means of ruling tools, the feature is that the abrasive removal depth is controlled by the amplitude of the sound signals recorded in each from the passages of the governing instruments from sound pressure sensors located directly at the ends of the end grinding wheels In this case, the dressing time is limited by the setting value of the amplitude of sound signals established before the start of dressing on previously straightened face grinding wheels from the condition of ensuring the necessary cutting ability of the wheels for a given quality of dressing.

Information confirming the possibility of implementing the invention to obtain the above technical result: figure 1 shows a schematic diagram of the implementation of the proposed method; figure 2 is a view B of the end grinding wheel and the dressing mechanism in figure 1 (barcode (pos. 1) is not conventionally shown).

The proposed method is carried out according to the scheme shown in figure 1, which includes the following main elements: end grinding wheels 1 and 2 located on the left 3 and right 4 spindles of the grinding headstock of the end grinding machine, which are installed using their axial (transverse) feed V _s with a certain clearance A between the ends of the circles 1 and 2 to a depth h of the abrasive layer to be removed during straightening. Diamond ruling tools 5 and 6, mounted on the lever 7 of the dressing mechanism 8, are moved relative to the leading circle 1 and the working circle 2 with a constant speed V _{and the} movement of the ruling tools along an arc of a circle in a plane perpendicular to the axis of the left 3 and right 4 spindles of grinding wheels 1 and 2. The movement of grinding wheels 1 and 2 in the direction of the axial feed V _{s of the} grinding headstock to a depth h of the abrasive layer to be removed is provided by the control program at the command of the CNC 9 of the machine using step motors 10. Sensors device and active control 11 determine the current height of the barcode and the corresponding compensation for their wear. Sensors 12 and 13, located directly at the ends of the grinding wheels and representing mini-microphones installed from the end surface of the leading 1 and working 2 grinding wheels, record the current value of the amplitude of the sound signal that occurs during dressing, proportional to the depth of the abrasive layer h being removed, and transmit information to analog-to-digital Converter 14 and a summing amplifier (adder) 15, equivalent to the sum of sound signals from sound pressure sensors, which then goes to the controller 16. The interface controller 16, connected to the CNC 9 through the digital input and output modules, provides information from sensors 12 and 13 through the converter 14 and the summing amplifier (adder) 16 to the PC 17, as well as the transmission of control signals from the PC 17 to the CNC 9 and on to stepper motors 10.

The method is implemented as follows. Before starting dressing coaxially installed grinding wheels 1 and 2, stop feeding the workpieces to the grinding zone, turn on the dressing mechanism 8, the lever 7 of which starts moving along the circular arc from point B to point C (Fig. 2) with a constant speed V _{a of} movement of the cutting tools 5 and 6 from the condition of their plane-parallel motion. The movement of the lever 7 is limited by limit switches (not shown in the drawing). When ruling tools 5 and 6 come in contact with circles 1 and 2, sound signals are generated depending on the depth of the abrasive layer h, the magnitudes of which are recorded by sound pressure sensors 12 and 13. The sound signal from sensors 12 and 13 is fed to an analog-to-digital converter 14 and a summing amplifier (adder) 15, where a summed sound signal is generated from two HFs, which goes further to the interface controller 16, connected to the CNC 9 of the machine through the digital input and output modules. The controller 16 provides the input of information from the sensors 12 and 13 to the PC 17, as well as the transmission of control signals from the PC 17 to the CNC 9 and then to the stepper motors 10 to control the depth of abrasive removal in each of the passes of the cutting tools. In the PC, the current value of the amplitude of the summed sound signal is compared with the value of the setpoint experimentally set in the training mode before dressing on pre-aligned grinding wheels. Upon reaching the current amplitude value of the summed sound signal, the setpoint value of the personal computer 17 instructs the CNC 9 to transfer the system to the nursing mode without removing the abrasive.

Since the cutting ability of the barcode is formed in the editing mode, but is fully manifested only during the grinding process, the nominal value of the amplitude setting of the summed sound signal is set experimentally in the training mode for each barcode characteristic and the grade of the materials to be polished by pre-aligned grinding wheels from the condition of providing the necessary cutting ability of the circles for a given quality of editing, identified by the grinding of test parts, and is automatically entered in ase PC data.

Thus, as a result of using the proposed technical solution, the consumption of grinding wheels on a bakelite bond is reduced by 25-30% and the dressing cycle time by 15-20% while ensuring the required quality of the polished parts.

Claims (1)

A method for automatically controlling the editing process of coaxially installed end grinding wheels by removing the abrasive layer from them by means of ruling tools, characterized in that the abrasive removal depth is controlled by the amplitude of sound signals recorded in each of the passes of the ruling tools from sound pressure sensors located directly at the ends of the end grinding wheels circles, while the editing time is limited by the value of the amplitude setting of the audio signals set before scarlet and to changes straightened tortseshlifovalnym circles of conditions provide the necessary cutting power for a given circles as editing.

Images