RO133793A2 - Portable device for controlling angles between plane surfaces - Google Patents

Abstract

The invention relates to a portable device used to control the angles between the surfaces of various pieces to allow fast determination of the angle variation related to the nominal position. According to the invention, the device consists of a body (1) which supports all the important components for orienting, positioning and fixing the piece to be controlled and the indicating instrument, respectively, a lever-type mechanism (2) with equal arms which comes into contact with the surface to be measured having the role of transmitting the feeler movement, through the measuring rod, to the indicating instrument, with a transmission ratio of 1 : 1, in order to respond to the requirement of increasing the universality degree of the control device, a spherical element (4), positioned at an end of the arm of the lever (2) with equal arms, which comes into contact with the free surface of the piece to be controlled, while the other end is in contact with the lower surface of the measuring rod, the permanent contact of the feeler (5) of the arm of the lever (2) with the surface of the piece to be controlled being provided by an extension coil spring (7) fixed by means of some threaded pins, with an end at the body (1) of the device to be controlled and with the other end at the arm of the lever (6), a dial gauge (3) having elasticized upper conical end is horizontally mounted on a gauge support (9) with a screw (10), and, for preventing the indicating instrument off-balance, two cylindrical limiters are screwed into the body (1) of the device to be controlled.

Description

PORTABLE DEVICE FOR ANGLE CONTROL OF PLANE SURFACES

The present invention relates to a portable device designed to allow the control of angles between planar surfaces.

A device, a dividing head, is known to serve as the orientation-positioning of the control parts and means in accordance with the requirements of the control process and of maintaining this orientation-positioning throughout the control. The dividing heads are used, in particular, for measuring and controlling the angles of rotation or for dividing the surfaces in the process of processing the parts. The device is composed of a main axis that can be rotated manually by actuating a lever and by means of a helical wheel and of a screw - snail. This device has the disadvantage that it is complicated to construct and stationary as it is difficult to handle and requires a number of accessories and measuring instruments complex and expensive [1,2, 3, 4].

Another device is known to comprise one or more measuring instruments (mechanical, optical, pneumatic, electrical, etc.) used in machine tools during their machining (active control) or in final form (passive control). The device with the role (function) of orienting the positioning and fixing of the parts in order to control the parameters that characterize one or more surfaces of a part or of an assembly.

Another device known to be based on the goniometric method for controlling the angles of flat surfaces is made up of collimating lens, lens, microscope. This device has the disadvantage that it has many component elements being also stationary ...... [1,5, 6],

Also, devices are known that serve for the reception, the interfacial control and the final control of the semi-finished goods and the control, possibly the regulation of the finished products. It is emphasized that they can be used for passive, active and adjustable control, both for finished and semi-finished parts. The control of angles by trigonometric methods involves calculations and the use of sinus tables or bars. These devices have the disadvantage that although they are easy to apply, they do not ensure the proper verification accuracy, leading to inconclusive verification results. The most important disadvantage is that the solutions that ensure a high accuracy of measurement, fail to achieve the correct materialization of the surfaces to be measured. [1, 5, 6], to 2018 00448

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Also known are technical systems that ensure the positioning of the part and / or the measuring device for the purpose of carrying out the measurement and the measuring means that ensure the positioning of the measuring device and the measuring piece for the measurement and special equipment with comparator tools and special equipped accessories or devices. with indicator tools, which allow the control of the angles between flat surfaces [3, 5, 6,]. The main disadvantage of these mechanisms is that although they are portable, they either do not provide the proper accuracy or require long time for adjustment, measurement, processing of the results of measurement. .

The problem solved by the invention is that of controlling the angles between the planar surfaces.

The device according to the invention removes the above disadvantages by the fact that, for the purpose of controlling the angles of the flat surfaces, it is provided with a mechanism with a lever with arms equal to the role of capturing the deviation of the measuring parameter and transmitting it to the indicator instrument; this is achieved with the help of spherical contact elements. Characteristic of this control device, is that, being a portable control device, all the important component elements for orientation, positioning, fixing of the control part, respectively, of the indicator instrument, are integrated into a whole, in the body of the device, the device being of medium complexity, the measurement of the angle or the deviation of the angle from the nominal value is made quickly, without the use of additional accessories and is thus characterized by a high degree of universality.

The device according to the invention has the following advantages:

simple adjustment for measurement;

simple and robust construction;

with positioning-fixing elements of the instrument (apparatus) for measuring and orienting the positioning of the control device relative to the controlled part;

control device measurement limit error (calculated): ± 1'5,75.

The following is an example of an embodiment of the invention, in connection with Figures 1 and 2, which represent:

Fig. 1, a view of the device, for highlighting the characteristic elements;

Fig. 2, a front view of the device.

The device according to the invention has as its basic part a body 1, supporting all the important component elements for orienting-positioning and fixing the control part, respectively, of the indicator instrument. The mechanism provided with a lever with equal arms 2 has the role of capturing the deviation of the measuring parameter and transmitting it to an indicator instrument 3; this is achieved with the help of a spherical contact element 4, mounted by soldering with a 2018 00448

21/06/2018 adhesive, at the end of an arm 5. The spherical element at the end of the arm 5 comes in contact with the free surface of the control piece, and a contact element at the opposite end of the lever 2, an arm 6, comes in contact with the lower surface of the measuring rod. The element that comes in contact with the surface of the piece to be controlled is mounted at the free end of the arm 5; Due to the fact that the arm 5 can change its position relative to the surface of the controlled part, it is necessary that the surface of the probe 4 be spherical.

The permanent contact of the probe of the arm 5 with the surface of the control part is provided by a helical spring of extension 7, fixed by means of threaded pins 8, with one end at the body of the control device and the other end at the arm 6 of the lever.

To prevent disturbance of the indicator instrument, two cylindrical limiters screwed into the body of the device to be controlled are provided.

The dial comparator 3 is mounted horizontally, which has the elastic tapered top end; fixing the indicator instrument is done with the aid of a comparator bracket 9 secured with a screw 10.

to 2018 00448

21/06/2018

References

1. ALEXANDRU, I. et al. The choice and use of metallic materials, Bucharest, Didactic and Pedagogical Publishing House, 1997.

2. CIOATĂ, F., GOJINEȚCHI, N., MIRCEA, D., CONSTANTINESCU C., Considerations on determining the extent of measurement error of measuring devices for large dimensions, Iasi, Bulletin of the Polytechnic Institute, Volume LIV (LVIII), Fasc. 3, 2008, pp. 129- 138.

3. DODOC, P., General Metrology, Bucharest, Technical Ed., 1984.

4. DRAGU, D. Tolerances and technical measurements, Bucharest, Didactic and pedagogical edition, 1982.

5. DRĂGHICI, I, et al., Design guide in the construction of cars, vol.1, 2, Bucharest, Technical Ed., 1981

6. GHERGHEL, N., SEGHEDIN, N. Design and design of the supports of the technological devices, Iași, Tehnopress, 2006.

7. MIRCEA, D. Dimensional control in machine construction, Iași, Tehnopress, 2004.

8. NAGÎȚ, Gh., Technical innovation, Chisinau, Technical Info Ed., 2001.

9. SEGHEDIN, N. Technological working devices for fine mechanics, Iși, Tehnopress Ed., 2006

10. STURZU, A. Basic research and design of the devices for controlling the precision of the shape and position of the surfaces, Bucharest, Technical Ed., 1977.

11. xxx, STAS 2810- 86, Means of measurement. Terminology.

12. xxx, Machine organs. Assembly elements (collection of standards).

13. xxx, The ISO system of tolerances and adjustments (collection of standards).

14. http: //www.greenmfg.me.berkelez.edu/lml/researc.html

15. http: // ww ^A \ convergentprima.com/Laser_Applications/LaserBeam Machining.html

16. htttp: //www.laserinstitute.org/jla/interest_areas.

Claims (3)

claims 1. Portable device for controlling the angles between flat surfaces, characterized in that, for the purpose of controlling the angles of the flat surfaces, it is provided with a lever with equal arms (2), it has the role of capturing the deviation of the measuring parameter and transmitting it to the instrument road sign; Device according to claim 1, characterized in that spherical contact elements (4), mounted by adhesive bonding, are used at the end of the lever arm (5) to obtain the contact. To prevent disturbance of the indicator instrument, two cylindrical limiters screwed into the body of the device to be controlled are provided. Device according to claims 1 and 2, characterized in that, in order to allow the permanent contact of the probe arm (5) to be measured with the surface of the control part, it is provided by a tensioning helical spring (7), fixed by means of threaded pins. (8), with one end to the body of the control device and the other end to the lever arm (6).