CS272253B2 - Device for amplitude measuring - Google Patents

Abstract

1. Apparatus for taking measurements of amplitudes with a housing (1) in which a spring-mounted measuring rod (2) terminating with a measuring attachment (3) is mounted so as to be capable of axial movement, characterised in that the measuring rod (2) is designed as a piston (4) acted upon by a restoring spring (6) arranged in the housing (1) and acting in the axial direction, in that there is rigidly secured in the piston (4) a transmitter (5) terminating in the measuring attachment (3) which is axially moveable relative to the piston (4), in that there is provided in the housing (1) a duct (8) extending at an acute angle to the piston axis, in which there is arranged a fixing element (7), designed as a rotary body, which is pressed in a fixing position against the side surface of the piston and the wall of the duct (8) by the action of a spring (12) provided in the duct (8), wherein the duct (8) and the fixing element (7) are arranged such that the fixing element (7) is pushed out of the fixing position when the piston (4) moves towards the restoring spring (6) and is pressed into the fixing position when the piston (4) moves away from the restoring spring (6), and the duct (8) is connected to an opening (9) formed in the housing (1) in which there is provided a spring-mounted, axially displacable disconnection switch (10), the tip of which is located at a distance (delta) away from the fixing element (7) and which is arranged and designed such that when it is actuated, the fixing element (7) is pressed out of the fixing position.

Description

The invention relates to an apparatus for measuring amplitudes, such as centered run deviations, frontal deviations, roundness, cylindrical deviations, and the like, using a limit value sensor.

The known amplitude measuring device described in US Patent Specification No. 924 501 consists of 2 housings in which a spring-loaded measuring rod terminates with a measuring tip. Mounted on the measuring rod is a T-shaped carrier whose transverse arm is provided with contact pads that contact a contact element mounted movably at one end of the yoke in one slide of the slide. The slide is coaxial with the transverse arm of the carrier and forms a friction pair with the housing of the device. The second slide extends in contact with a contact element that is rigidly connected to the other end of the yoke. For these consecutive contacts, the absolute permissible deviation from the nominal value of the measured quantity is measured.

The disadvantages of this device are that it has a low limit sensitivity due to the presence of electrical contact elements, low operational reliability due to the presence of a friction pair, a complex and technologically unsuitable design and that it cannot be connected to an automatic assembly because it lacks a shut-off device. guided the piston back to its starting position and thereby prepared the instrument for the next duty cycle.

It is an object of the present invention to provide an amplitude measuring device having high limit sensitivity, increased operational reliability, simple and technological construction, and suitable for connection to an automated system.

SUMMARY OF THE INVENTION The present invention is directed to an amplitude measuring device comprising a housing in which a measuring rod terminated in an axially movable manner terminates in a measuring tip. The principle of the invention consists in that the measuring rod is formed by a piston in which the sensor body terminated by the measuring adapter is fixed, the piston touching the wedge-shaped wedge element supported in a spring-loaded manner. in a housing channel connected to an o 'or oor also arranged in a housing in which an axially displaceable spring-loaded switch is located, whose * spike is located at a distance δ from the rotary body of the wedge element.

The channel in which the spring-shaped rotary body of the wedge element is mounted forms an angle of 8 to 12 ° with the piston axis. The distance between the spring-shaped rotary body of the wedge element and the tip of the spring-loaded switch is at least 0.5 mm.

i.e

The advantage of the device according to the invention lies in the high sensitivity which is achieved by means of a wedge element enabling precise

fixation of the measuring rod, in high reliability due to the absence of a friction pair, thereby increasing efficiency, in design technology with maximum simplification of individual elements and in the possibility of automatic operation of the device by connecting a tripping element to enable measurement of amplitude in cycles in succession.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be explained by way of example with reference to the drawing, in which: FIG.

The device according to the invention consists, according to FIG. 1, of a housing 2 in which the spring-loaded measuring rod 2 terminates movably and ends with a measuring extension 2. 5 is surrounded by a return spring 16 which contacts the piston 4. The measuring attachment 23 is mounted in the lower end of the sensor 2 to be axially movable. The piston 2 is in contact with a wedge element, formed as a rotating body 2 ^and housed in the inclined channel 2 in the housing 2. of the housing 1, wherein the axis of the bore 2 is not perpendicular to the axis of the piston

4. A spring-loaded circuit-breaker 10, which is axially displaceable, is accommodated in the aperture 23. The tip of the spring-loaded switch 10 is located at an angle δ from the rotary body 11 of the wedge element, which must be at least 0.5 mm. The housing 2 3 ® from above is covered by a cover 21, which supports the end of the return spring 2 ^{and the} end of the compression spring 12 which bears on the rotary body 2 s is arranged in the inclined channel 2.

* The device operates as follows: when moving the device to the pre-clamped inspected workpiece, the surface »of the piston 4 touches the surface of the workpiece, * then the sleeve 2 moves forward to the workpiece until the piston 2 is moved a distance away from the sleeve 2. greater than or equal to the maximum permissible deviation Δ 5 of the controlled parameter. In this position, the device is fixed in the working position, the front surface of the piston 4 and the tip of the measuring attachment 1 being flush. Measurement of the controlled quantity starts by turning the workpiece. As soon as the piston 4 with the measuring head 3 arrives at the highest point of the workpiece surface, the movement of the piston 1 is stopped and the piston 4 is fixed by the wedge element rotary body 7 so that only the measuring head 3 of the sensor 5 can move. in a straight line. This senses the surface of the workpiece to be inspected and at the same time indicates any deviations. After the measurement is completed, the device is prepared for the next measuring cycle by unlocking the rotary body 7 by means of an axially sliding spring switch 10 which, when pressed against the rotary body 2, releases the piston 4, which returns to its starting position. The return of the piston 4 to the initial position occurs by the action of the return spring 6. This is ready for the next duty cycle.

Claims (3)

SUBJECT OF THE INVENTION Amplitude measuring device, comprising a housing in which an axially movable measuring rod terminated by a measuring attachment is mounted, characterized in that the measuring rod (2) is formed by a piston (4) in which the sensor body (5) terminates with the measuring device the piston (4) is in contact with a wedge-shaped element in the form of a rotary body (7), supported by a spring (8) of the housing, communicating with an opening (9) also arranged in the housing (1), An axially displaceable spring-loaded switch (10), the tip of which is spaced from the rotary body (7) of the wedge element. 2. Device according to claim 1, characterized in that the channel (8) closes with the v axis of the piston (4) acute angle and 8-12 '. 3. Device according to claim 1, characterized in that the resilient rot? ^The body (7) and the tip of the spring switch (10) are at least 0.5 mm apart.