RU2359218C2 - Height control device - Google Patents

Abstract

FIELD: instrument engineering.

SUBSTANCE: invention refers to measurement equipment and serves for parts height control. Essence of invention: the device contains measuring stick, lever and measuring transmitter installed at the base. Measuring transmitter is performed in a form of electric-contacting double-range transmitter and installed at the base by means of bush with clamping device. Measuring stick is installed in guide bush with flange by means of which it is fixed in base opening. There is contact area at the upper end of the measuring stick, the lower end is spherical and leans on lever first end that is fixed at the base via ball bearings. In the closed holes of lever second end and base there are spring ends. Measuring stick of electric-contacting double-range transmitter contacts lever second end.

EFFECT: provision of part size control within specified tolerance range.

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Description

The invention relates to measuring equipment and can be used to control the height of the parts.

The closest analogue is a control device containing a base, a probe, a lever and a transmitter installed on it (see, for example, the description of the invention to the patent of the Russian Federation 2165593, IPC 7 G01B 5/00, G01B 3/22, publication date 2001.04.20).

The disadvantage of the closest analogue is not sufficiently high adaptability, due to the performance of only an indication of the deviation of the controlled size of the part without fixing the deviation of the size from the specified limits of its tolerance.

The technical result of the claimed solution is to ensure control over finding the size of the part within a given tolerance field.

The essence of the technical solution is characterized by essential features common with the closest analogue: the base, a probe, a lever and a measuring transducer installed on it, and significant features that differ from the closest analogue: the measuring transducer is made in the form of an electric contact two-limit transducer and is mounted on the base by means of a sleeve with a clamping device , the probe is installed in the guide sleeve with a flange, by means of which the guide sleeve is fixed in the hole of the base, on A contact pad is made at the upper end of the probe, the lower end of the probe is spherical and rests on the first end of the lever fixed to the base by means of ball bearings, spring ends are inserted into the blind hole of the second end of the lever and the blind hole of the base, the measuring rod of the electrical contact two-limit transducer is in contact with the second the end of the lever.

The essence of the technical solution is illustrated by drawings, where:

figure 1 shows the device, a side view in cross section;

figure 2 shows the device, a view in section along aa.

The height control device contains a base 1. On the base 1, a probe 3, a lever 6 and a measuring transducer 4 are installed (Fig. 1). The probe 3 is installed in the guide sleeve 2, which is attached to the base 1.

Support legs 5 are attached to the bottom of the base 1 for mounting a height control device on a support surface, for example, a table. At the upper end of the probe 3, a contact pad 10 is made. The lower end of the probe 3 is made spherical and rests on the first end of the lever 6 (Fig. 1). The lever 6 is mounted on the base 1 by means of ball bearings, made in the form of a bracket 7 fixed with bolts 21 on the base 1 with two threaded holes (Fig. 2). In the threaded holes of the bracket 7, screws 8 are installed with a spherical recess on one of the ends of each screw 8. Between the spherical recesses of the screws 8 and the spherical recesses on the sides of the middle part of the lever 6, balls 17 are installed (Fig. 2). Fixing the position of the screws 8 relative to the lever 6 and the bracket 7 is carried out by means of the lock nuts 18 mounted on the screws 8 (Fig. 2). The measuring transducer 4 is made in the form of an electric contact two-limit transducer. As a measuring transducer 4, a two-limit electric contact transducer of model 233 can be used (see, for example, Means of control, control and measurement of linear and angular dimensions in mechanical engineering. Catalog. All-Union Scientific Research Institute of Information and Technical and Economic Research in Mechanical Engineering and Robotics. - M .: 1985, p. 30).

The measuring rod 8 of the electric contact two-limit converter 4 is in contact with the second end of the lever 6. The electric contact two-limit converter 4 is mounted on the base 1 by a sleeve 9 with a clamping device 11. The sleeve 9 is attached to the base by screws 15 with washers 16. The cylindrical part 12 of the electric contact two-limit converter 4 is fixed in the sleeve 9 by the clamping device 11. The fastening elements of the flange of the guide sleeve 2, the sleeve 9 and its clamping device can be made us in the form of screws 15 and washers 16 (such as the split spring washer).

The ends of the spring 20 are inserted into the blind hole 14 of the second end of the lever 6 and the blind hole 13 located in the base 1 opposite the blind hole 14.

To limit the stroke of the probe 3, a longitudinal groove 22 is made in it, and a screw 19 is screwed into the threaded hole in the wall of the guide sleeve 2.

The output of the double-contact electrical contact transducer 4 is connected by a cable to an electronic unit (not shown), which indicates whether the monitored part height is within the tolerance or is outside the specified limits.

The operation of the height control device is as follows. Initially, the height control device is calibrated and the specified limits of the controlled height of the part are set by tincture of the electrical contact two-limit transducer 4. Two calibers can be used for calibration, made, for example, in the form of cylindrical glasses. The height from the inside of the bottom of the first glass to the end surface of the open edge of the glass is the height corresponding to the lower limit of the height of the part. The distance from the inner part of the bottom of the second glass to the end surface of the open edge of the glass is the height corresponding to the upper limit of the height of the part.

Having installed the first glass on the base 1 so that its bottom rests on the contact pad 10 of the probe 3, the two-limit transducer 4 is set up by rotating the first of its two setting elements 23 until the contact of the two-limit transducer 4 is activated and indicated on the electronic unit.

Having installed the second glass on the base 1 so that its bottom rests on the contact pad 10 of the probe 3, the two-limit transducer 4 is set up by rotating the second of its two tuning elements 24 until the contact of the two-limit transducer 4 is activated and indicated on the electronic unit.

After calibrating the height control device, it is possible to control the height of the manufactured part 25. A part 25, which usually has an end surface, relative to which it is necessary to control the height to the second surface of the part 25 (for example, in the form of a cup), is installed with the end surface on the base 1 so that the second surface of the part 25 is in contact with the contact pad 10 of the probe 3. In this case, the probe 3 will occupy a position relative to the base 1, determined by the specific value of the heights details 25. Moving the probe 3 leads to the rotation of the lever 6 and the movement of the measuring rod 8 of the electric contact two-limit transducer 4. If the position of the measuring rod 8 does not trigger any of the contacts of the electric contact two-limit transducer 4 and, accordingly, the indication of the electronic unit, it is recognized that the height parts 25 are within predetermined limits, i.e. between the upper and lower predetermined limits of the height of the part 25. For the convenience of working with the height control device, a light indication may be provided in the electronic unit to visually confirm that the part 25 in part of its height is not defective. A light indication of the output of the height size of a particular part 25 beyond the specified limits is also possible, indicating specifically which limit (upper or lower) is not observed in this part 25. This allows you to decide on the possibility of correcting the marriage of the part 25 by additional machining. After inspection, part 25 may be replaced by the following part 25 to effect a new height control in the above manner.

From the description of the operation of the height control device, it follows that quick control of the height value of the part within a given tolerance field is provided.

Claims (1)

A height control device comprising a base, a probe installed on it, a lever and a measuring transducer, characterized in that the measuring transducer is made in the form of an electric contact two-limit transducer and is mounted on the base by means of a sleeve with a clamping device, the probe is installed in a guide sleeve with a flange, through which the guide the sleeve is fixed in the hole of the base, a contact pad is made on the upper end of the probe, the lower end of the probe is spherical and rests on the end of the lever, fixed on the base by means of ball bearings, the ends of the spring are inserted into the blind hole of the second end of the lever and the blind hole of the base, the measuring rod of the electrical contact two-limit transducer is in contact with the second end of the lever.

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