SU1052904A1 - Contactless prod for leak detector - Google Patents

Abstract

A CONTACTLESS MECHANISM TO THE LOCKER, comprising a body having a working annular ledge with a central channel for evacuating the test gas and an annular channel for supplying a locking gas formed by straight conical surfaces, the tops facing the inside of the body, characterized in that 1 reliability and simplified construction, the protrusion is made in the form of a reverse cone, the surface of which is associated with the inner conical surface of the channel by means of a curved convex Q surface of rotation.

Description

The invention relates to a testing technique, namely to testing products for tightness. The probe to the leak detector is known, comprising a housing with a central channel for evacuating the test gas, an annular channel for supplying protective gas and a movable sleeve for blocking the annular channel in one of its extreme positions: dsh and the sys- teal holes of the central channel in another extreme position f. However, the probe does not provide accurate accuracy and reliability of the tests, since the overlap occurs incompletely and with a delay in time, and the effectiveness of the protective zone created by the saiipiTHbiM gas is insufficient. The closest to the present invention is a contactless probe to the leak detector, containing an enclosure with a working annular protrusion with a central channel for evacuating prostate gas and an annular channel for under water protective gas formed by a straight surface above the tip of the tip facing the inside of the housing , and so the inkjet element | -SHI-NOT-NLI for switching over oches-1 flow of gas, the output of which is connected to the radial holes of the central channel and the output OR to the annular channel 2J lack of reliability due to the presence of a special node for switching the flow of an end gas and an additional channel for connecting it with a radiant hole, the reliability of which depends on many factors, mainly on the gap between the controlled surface and the working overhang and the effect of feed pressure. The purpose of the invention is to increase the reliability of the probe and simplify its design. This goal is achieved by That in the contactless probe to the leak detector, comprising a case having a working annular ledge with a central channel for evacuating the test gas and an annular channel for supplying protective gas formed by straight conical surfaces, the tops of which are facing the inside of the case, is executed in the form of an inverse cone. The surface of which is aligned with the inner straight conical surface of the channel by means of a curved convex surface of rotation. The drawing shows the probe, the overall appearance. A non-contact probe for a leak detector consists of a cylindrical case 1 with an annular channel 2 for supplying a protective gas to the surface of the product 3, formed by straight conical surfaces 4 and 5, the tops of which are facing the inside of the case. The working annular protrusion 6 with the central: 7 channel is made in the form of an inverse cone, the surface 8 of which smoothly mates with the internal straight line; the surface 5 of the channel 2 through the curvilinear convex surface 9 of the vraden so that the protrusion 6 has a streamlined shape. The central channel 7 is connected to the leak detector 10, and the annular channel 2 is provided with a protective gas supply system 11. The device works as follows. A barrier gas is supplied to the inlet of the annular channel 2, with: this is a stream of gas (the direction of the jet is shown by a dotted line) flowing out of the annular channel 2, melts, but flows around the surface of the protrusion 6 and blocks the entrance to the central channel 7, protecting it from falling 6 it is a test gas contained in the atmosphere. When the probe approaches the surface of the controlled product 3, the pressure in the boundary layer of the protective gas jet increases from the rtoron end of the projection b and the jet of protective gas separates from the surface of the projection 6, creating a gas protection (the direction of the jet is shown by a solid line) around the entrance to the central channel 7, the d in 11 (the scoop 10 enters the probing gas only from the leak in the product 3. When the probe is removed from the surface, the stream of protective gas again sticks to the surface of the protrusion 6 and blocks the entrance to the central channel 7, preventing ingress e in it is a gas from the atmosphere. The protective gas flow is switched automatically when the probe approaches the surface and when it is removed, independently of other

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factors, and with large gaps (, 4-probe operation when leakage is detected at

5 mm) between the protrusion, and the surface, of uneven surfaces of any shape and

which greatly increases the reliability of the complex configuration.

Claims (1)

Non-contact probe to the leak detector, comprising a housing having a working annular protrusion with a central channel for extracting sample gas and an annular channel for supplying protective gas, formed by straight conical surfaces whose vertices face inside the housing, characterized in that, in order to increase the reliability and simplifying the design, the protrusion is made in the form of an inverse cone, the surface of which is conjugated | With the inner straight conical surface of the channel by means of a curved convex surface of revolution. SU „„ 1052904 f