WO2018203767A1

WO2018203767A1 - Device for measuring linear displacement

Info

Publication number: WO2018203767A1
Application number: PCT/RU2017/000284
Authority: WO
Inventors: Илья Абович КОЛКА; Михаил Николаевич ЗАЙКОВ
Priority date: 2017-05-03
Filing date: 2017-05-03
Publication date: 2018-11-08
Also published as: RU2729245C1

Abstract

The invention relates to the field of machine tool manufacture and can be used for measuring the displacement of a cutting tool during machining of an article on a lathe. The present device comprises a housing, a support side of which is magnetic and is configured for mounting onto a boring head of a lathe. The other side of the housing is provided with a groove, wherein a magnetic sliding member is disposed on the outer surface of this side for movement along the groove, said sliding member being rigidly connected to a measuring ruler disposed on the inner surface of this side of the housing. Also disposed inside the housing are a fixed sensor for measuring displacement of the measuring ruler, and a microprocessor connected thereto for converting a signal from the sensor and outputting said signal to an external device such as a monitor mounted on the outer surface of the housing. Furthermore, the aforementioned sliding member is connectable to a sliding member of the boring head of the lathe. The invention allows the structure of a measuring device to be simplified and increases the reliability of the measuring device and the ease with which it can be installed or replaced.

Description

Title of invention: "Measuring device of linear displacements"

"Field of technology"

The invention relates to mechanical engineering and can be used to measure the movement of a tool, device, device and controlled product before processing or during processing on a machine or table.

"Prior art"

A device for determining accuracy indicators during turning according to the patent of the Russian Federation Ns 78721 for a utility model containing a non-contact displacement sensor for active size control, characterized in that the non-contact displacement sensor is installed on the headstock body and interacts with the spindle surface with its sensitive tip and transfers to a computer a signal about the movement of the spindle in the cutting plane, in addition, the device is equipped with a second non-contact displacement sensor, which is fixed to and using its sensitive tip, interacts with a precision ruler fixed to the bed and transmits to the computer a signal about the movement of the cutter in the cutting plane, while the computer processes the incoming signals and calculates and builds geometric images on their basis in the transverse and longitudinal sections of the processed surface, on the basis of which the computer calculates accuracy indicators: deviation from roundness, size error, ovality, deviation of the longitudinal section profile, deviation from the axis alignment , radial runout, deviation from cylindricity.

The disadvantage of the device according to patent N ° 78721 is its complexity, inconvenience in operation.

A device for automatic control of CNC lathes according to the patent of the Russian Federation N ° 99369 for a utility model containing means for acquiring information in the form of a sensor for angular displacements of the machine spindle and a non-contact sensor for moving the workpiece located on the front headstock of the machine, as well as means processing and transmitting initial information according to a given program to CNC tools, characterized in that it is equipped with an accelerometer that is functionally a means of measuring the movement of the cutter, while the accelerometer is located with a displacement sensor of the workpiece in the same cutting plane and is connected with the processing and transmission of initial information by a given program for CNC.

The disadvantage of the device according to the patent of the Russian Federation N ° 99369 is its complexity, inconvenience in operation.

A device for controlling the accuracy of machining parts on high-precision equipment with numerical control (CNC) according to the patent of the Russian Federation Ν ° 2288808 for an invention comprising a signal amplification unit and an actuator connected to a cutter, characterized in that it is equipped with an optical sensor, an analog-to-digital converter and a computer to compare with the required part size and determine the total value of the disturbing effects at an arbitrary point, the input of which is connected to an analog-to-digital converter, and the output is connected to the input of the signal amplification unit, the output of which is connected to the inputs of the actuators.

The disadvantage of the device according to the patent Ν ° 2288808 is its complexity, inconvenience in operation.

It is known a measuring device for measuring controlled products during the processing process on a processing machine, in particular on a grinding machine (according to the patent of the Russian Federation Ν ° 2581326 for the invention), comprising a main body, a measuring head configured to move between the initial position and the measurement position and connected with the main body through the lever system, which is made and adjusted so that the measuring head in the measurement position follows the orbital rotations of the controlled and products around the rotary axis, and the measuring head has a probe that can be deflected along the linear axis to take measured values during the measurement process, as well as a control device for controlling the measurement process, characterized in that it is configured to calibrate in a calibration mode using said control device. In the measuring device, the measuring head may have a measuring prism with a solution angle a, which is the first angle, and an axis of symmetry, and the orientation of the linear axis of the probe relative to the axis of symmetry of the measuring prism is specified by the second angle β, with calibration being performed with respect to the first angle a and / or second angle β.

The device according to the patent of the Russian Federation Ν ° 2581326 for the invention is selected as the closest analogue (prototype).

The disadvantage of the device according to patent N ° 2581326 is its complexity, inconvenience in operation.

"Disclosure of inventions"

The technical problem solved by the invention is the creation of a universal measuring device, convenient in operation, reliable, suitable for use in machines of various designs.

The technical result provided by the invention is to simplify the design, provide convenience when installing the measuring device, when it is removed for replacement, increasing the reliability.

The claimed technical result is ensured by the fact that in the linear displacement measuring device comprising a housing, the supporting side of which is intended to be mounted on the fixed part of the boring head, is made magnetic, the other functional side of the housing is made with a slot, the measuring device slider is placed outside the functional side of the housing mounted on the outer surface of the functional side along the slot, slider measuring device gesture connected to a measuring ruler located along the functional side of the device from the inside of the housing, the rigid connection of the slider of the measuring device to the measuring ruler is intended for their interdependent movement along the functional side along the slot, a sensor designed to measure the movement of the measuring ruler is stationary inside the housing, microprocessor, connected to the sensor and intended for converting the sensor signal, the microprocessor is connected to an external device designed to display information about the value of the movement of the measuring ruler or to further process information about the movement of the measuring ruler; , the housing of the measuring device is designed for its installation by the supporting side on the fixed part of the bore of the head with the simultaneous connection of the measuring device slider with the boring head slider due to the magnetic properties of the measuring device slider and the boring head slider, the magnets of the supporting side of the housing and the measuring device slider are selected from the condition that the supporting side of the housing is magnetized to the fixed part of the boring head and the measuring device slider to the slider of the boring head.

The microprocessor may be connected to a monitor mounted on the outer surface of the housing.

A section of the stationary part of the boring head, intended for connection with the supporting side of the housing, and a section of the slider of the boring head, intended for connection with the slider of the measuring device, are made magnetic.

By means of the claimed invention, the linear displacement of the cutter is measured while setting its position for processing bodies of revolution. The need for this is due to the fact that it is possible to control the accuracy of the machining precisely before the machining process, in order to adjust the position of the cutter before the machining process, and not after the part has already been incorrectly manufactured.

The measuring device comprises a housing made of non-magnetic material, while one of the housing sides (supporting side) is made magnetic to ensure magnetization of the measuring device to the fixed part of the boring head. The supporting side can be made of magnetic material entirely, or the magnet can be attached to the supporting side.

On the other side of the housing of the measuring device is connected a slider of the measuring device placed outside this side with the possibility of movement along it. In this case, the slider of the measuring device is made magnetic or equipped with magnets. The housing side of the measuring device to which the slider is connected is called the functional side.

A ruler is placed on the inner surface of the functional side. A rigid connection of the slider and the measuring ruler is provided as follows: on the functional side, a slot is made through which the connecting elements pass, ensuring the connection of the slider of the measuring device and the ruler. This ensures a rigid connection of the slider of the measuring device and the ruler and their joint and interdependent movement along the slot.

A sensor (displacement sensor) is placed inside the housing of the measuring device, designed to measure the movement of the measuring line. The displacement sensor is connected with a microprocessor designed to process the displacement value of the measuring line and transmit the corresponding signal to a monitor or other device for outputting information about the displacement value of the measuring line.

A battery element is located inside the housing of the measuring device, which provides power to the displacement sensor, microprocessor, and information output device.

Before the operation of the measuring device, it is placed on the fixed part of the boring head and is attached to it due to the magnets of the supporting side of the housing of the measuring device. At the same time, when installing the measuring device, the interaction of the slider of the measuring device with the slider of the boring head is ensured. The connection of the slider of the measuring device and the slider of the boring head is provided due to the magnetic properties of the slider of the measuring device.

Features of installing a measuring device on a boring at least part of the boring head and its slider of magnetic material are conditioned on the head to ensure reliable connection of the fixed part of the boring head with the supporting side of the housing of the measuring device and the slider of the measuring device with the slider of the boring head. At the same time, the boring head must have a design that provides at least a partial open external access to its slider.

Thus, after installing the measuring device on the boring head, a fixed connection of the housing of the measuring device with the fixed part of the boring head will be provided, at the same time, communication will be ensured between the slider of the measuring device and the slider of the boring head. In this case, the movement of the slider of the boring head will cause a similar interdependent movement of the slider of the measuring device.

The inventive design of the measuring device is simple, due to the small number of mutually moving structural elements; reliable because there are no movable elements of the device, the movement of which can lead to breakage of the connecting elements. The inventive measuring device is convenient in operation, because can be easily removed and installed, this does not require the use of special tools and equipment. The inventive measuring device is accurate, because his work is based on direct (without any transmission links) measuring the movement of the slider of the measuring device, the movement of which is carried out simultaneously with the movement of the slider of the boring head and is due to it. The shape of the housing of the measuring device can be set to any one based on the possibility of placing the measuring device on the boring head with the possibility of connecting the slider of the measuring device to the slider of the boring head. The shape and size of the housing can adapt to specific conditions, based on the convenience of placing the measuring device, its installation and removal. All this ensures the versatility of the claimed device, ease of operation. "Brief Description of the Drawings"

In FIG. 1 shows a section through a measuring device.

In FIG. 2 shows a diagram of the installation of a measuring device on a boring head.

In FIG. 3 shows a diagram of the mutual arrangement of the measuring device and the slide of the boring head when moving it.

"Implementation of the invention"

The inventive measuring device comprises a housing 1, the supporting side of which 2 is made magnetic. For this, either the supporting side 2 itself is a magnet or magnets are attached to the side 2. The strength of the magnets is selected from the condition of ensuring reliable magnetization (attachment) of the support side 2 of the measuring device to the fixed part of the boring head. The other side 3 of the housing 1 is called functional and is made with a slot 4. A slider 5 of the measuring device is placed outside the slot 4 on the outside, and a measuring ruler 6 is placed inside, while the slider 5 and the ruler 6 are rigidly connected to each other by connecting elements 7, for example, bolts. The slider 5 is installed with the possibility of mutual movement with the ruler 6 along the slot 4. The slider 5 is made of magnetic material or provided with magnets rigidly connected to the outer surface of the slider 5. The strength of the magnets of the slider 5 is selected from the condition of reliable connection (magnetization) of the slider 5 to the boring slide heads. Inside the housing 1 is stationary (rigidly) placed sensor 8, designed to measure the movement of the ruler 6; a microprocessor 9 connected to the sensor 8 and designed to convert the signal from the sensor 8 and transmit information to the information output device 10 (for example, a monitor). Also, a battery 1 1 is located inside the housing 1, designed to power the sensor 8, microprocessor 9, and information output device 10. For operation, the housing 1 of the measuring device is mounted on the fixed part of the boring head 12, while holding the measuring device on the fixed part of the boring head is provided for due to the strength of the magnet of the support side 2 and the magnetic properties of the fixed part of the boring head. At the same time the measuring device is installed so that the slider 5 of the measuring device is connected (magnetized) with the slider 13 of the boring head 12, while the retention of the slider 5 of the measuring device on the slider 13 of the boring head is ensured by the strength of the magnet of the slider 5 and the magnetic properties of the slider 13 of the boring head 12.

In addition to the supporting side 2 and the slider 5, all other structural elements of the inventive measuring head are made of non-magnetic material. Also, sections of the boring head and the slider of the boring head with which the supporting side 2 and the slider 5 of the measuring device are connected should be made of magnetic material.

The inventive device is applicable to all types of boring heads, which provided, at least in part, access to the outer surface of the slide of the boring head.

The inventive device operates as follows.

When moving the slider 13 of the boring head, simultaneous interdependent movement of the slider 5 of the measuring device occurs. The slider 5 moves along the slot 4, simultaneously with the slider 5 along the slot 4 the ruler 6 moves, rigidly connected to the slider 5. The sensor 8 measures the displacement value of the ruler 6, moving relative to the sensor 8, and transmits the corresponding information to the microprocessor 9, which converts the signal from the sensor 8 into a view that allows you to visualize information about the value of the movement of the ruler 6 or to transfer information about the value of the movement of the ruler 6 for a different form of output of information or for transferring information to another device, for example p smartphone. The communication of the microprocessor 9 with an external device can be carried out by means of a wired connection, via a bluetooth channel, the Internet, etc. The type of communication is selected based on the available type of communication, as well as taking into account the convenience of processing information.

The slider 13 of the boring head is connected with the cutter, therefore, the inventive measuring device can be used to measure the movement of the cutter of the boring head.

Claims

CLAIM

Item 1. A linear displacement measuring device comprising a housing, the supporting side of which is intended to be mounted on the fixed part of the boring head, is made magnetic, the other functional side of the housing is made with a slot, a measuring device slider is installed outside the functional side of the housing, which is movable the surface of the functional side along the slot, the slider of the measuring device is rigidly connected to a measuring ruler placed along the the internal side of the device from the inside of the housing, the rigid connection of the slider of the measuring device to the measuring ruler is designed for their interdependent movement along the functional side along the slot, inside the housing there is a motionless sensor designed to measure the movement of the measuring ruler, a microprocessor connected to the sensor and designed to convert the sensor signal, the microprocessor is connected to an external device designed to display information about the value of the displacement measured of a solid ruler or for further processing of information on the movement of the measuring ruler, the slider of the measuring device is made magnetic to ensure the connection of the slider of the measuring device with the slider of the boring head, the housing of the measuring device is designed to be installed with its supporting side on the fixed part of the boring head with the simultaneous connection of the slider of the measuring device with the slider the boring head due to the magnetic properties of the slider of the measuring device and the slider of the boring head ki, the strength of the magnets support of the housing and slider of the measuring device is selected from the conditions of maintenance Magnet supporting the housing to a stationary part of the boring head slider and the measuring device to the slide of the boring head.

Paragraph 2. The device according to p. 1, characterized in that the microprocessor is connected to a monitor mounted on the outer surface of the housing. Clause 3. The device according to claim 1, characterized in that the portion of the stationary part of the boring head, intended for connection with the supporting side of the housing, and the portion of the slider of the boring head, intended for connection with the slider of the measuring device, are made magnetic.

Clause 4. The device according to claim 1, characterized in that, the supporting side of the housing of which is made magnetic, is designed to be mounted on the slider of the boring head, with the simultaneous connection of the slider of the measuring device with the non-moving part of the boring head, due to its magnetic properties.