RU149700U1 - CONTROL LEAK - Google Patents

Abstract

A control leak with a linear scale for determining the speed of movement of the probe of the leak detector, characterized in that on the linear scale along the path of the probe the sensing elements are placed at the same distance from each other, communicating with an electronic device capable of counting after conducting the probe on the linear scale with sensitive elements the average velocity of the probe by the ratio: where V is the average velocity of the probe of the leak detector, mm / s; b is the distance between the sensing elements, mm; n - the number of sensitive elements on a linear scale; - time of overlapping with the probe of the i-th sensitive element, s; - time of overlapping with the probe of the previous (i-1) -th sensitive element, s.

Description

The utility model relates to the field of testing and can be used in the rocket-space, electronic, nuclear industry, in mechanical engineering, where it is necessary to test products for leaks and, in particular, relates to questions of finding places for leaks of tested products.

When checking the tightness of products or assembly units, in particular when searching for leaks using the probe method, the speed of moving the probe along a controlled surface is important. (OST 92-1527-89 "Products of the industry. Methods of leak testing using mass spectrometric leak detectors"), since the sensitivity of the tests will be correspondingly different at different probe speeds. In this case, the search for leaks, so as not to miss the leak, it is necessary to conduct with such a dynamic sensitivity that will not exceed the value of the permissible value of leaks. Since the speed of movement of the probe of the leak detector when searching for leaks is entirely dependent on the tester, i.e. from the human factor, the proposed technical solution is aimed at obtaining an objective test result and improving the reliability of the controlled products.

Known control leaks manufactured in accordance with OST 92-2125-87 "Control leaks. Technical conditions ”, with a ruler for setting the probe of the leak detector and determining the necessary speed of movement of the probe. When conducting a leak detector probe along a ruler opposite the sample gas outlet, the leak detector indicator device responds to the sample gas flow. The dynamic sensitivity of the leak detector to the flow of test gas is determined at different probe speeds. However, the disadvantage of this device is the need to determine the speed of the probe in the following way: manually turn on the stopwatch and calculate the value of the speed of the probe.

The closest analogue of the proposed device can serve as a control flow with a digital indication of the value of the sample gas flow (EM RF No. 108142, G01M 3/00), however, this device only shows the value of the sample gas flow at the current time.

The objective of this utility model is to automate the process of determining the speed of the probe, ensuring the objectivity of the test results, and the ease of operation of the control leak.

To solve this problem, a control leak with a linear scale is proposed for determining the speed of movement of the probe of the leak detector, according to a utility model, on the linear scale along the path of the probe, sensing elements are placed at the same distance from each other, communicating with an electronic device that can, after holding the probe on the linear scale with sensitive elements, calculate the value of the average speed of the probe by the ratio:

where V _CP is the average velocity of the probe probe leak, mm / s;

b is the distance between the sensing elements, mm;

n is the number of sensitive elements on a linear scale;

τ _i is the time of overlapping with the probe of the i-th sensitive element, s;

τ _i-1 - time of overlapping with the probe of the previous (i-1) -th sensitive element, s.

A distinctive feature of the leak is the presence of sensitive elements on the linear scale of the control leak and connected to an electronic device containing an electronic time meter, which calculates the speed of the probe.

Comparison of the claimed technical solution - the control leak - with the prior art in the scientific and technical literature and patent sources shows that the set of essential features of the claimed solution was not known. Therefore, it meets the condition of patentability - “novelty”.

The claimed solution can be industrially applicable, because can be manufactured industrially, feasibly and reproducibly, therefore, it meets the condition of patentability - “industrial applicability”.

The proposed leak design is illustrated in the drawing, where in FIG. 1 shows a control leak with an electronic device and a linear scale; FIG. 2 shows a linear scale with sensitive elements.

Permeable element 1 (glass or metal capillary, porous material, diffusion-permeable element, etc.) is designed to create a stable flow of sample gas.

The impermeable housing 2 serves as a container for filling and storing sample gas. In the body 2 of the control leak, a filling valve 3 is tightly installed to fill the leak with test gas, a pressure sensor 4 connected to the electronic device 5 with a liquid crystal display 6.

A linear scale 7 is installed on the control leak with sensing elements 8 communicated with the electronic device 5 and an outlet 9 opposite the permeable element 1, which is hermetically installed in the leak housing 2.

Linear scale 7 with built-in sensitive elements 8 is a rectangular platform designed to simulate a controlled surface and move the probe of the leak detector 10 along it to determine the optimal speed of movement.

The electronic device 5 is designed to receive an electrical signal from the sensing elements 8 of the linear scale 7 when conducting the probe of the leak detector 10, measuring the travel time, processing the results and indicating the value of the obtained speed of the probe on the display, as well as receiving a signal from the pressure sensor 4, processing it values according to the functional dependence in the corresponding flow value and the indication of this value on the display 6.

The sensing elements 8 are designed to transmit an electrical signal to an electronic device 5 when passing through the probe of the leak detector 10 and can be photoelectric, electromagnetic, optoelectronic or other type. The arrangement of the sensing elements 8 on the linear scale 7 and the test gas outlet 9 is shown in FIG. 2. The distance between the sensing elements are equal to:

b = b ₁ = b ₂ = b ₃ ... = b _n

The operation of the control leak is as follows.

, где:After turning on the test leak, the probe of the leak detector 10 is connected to the first sensitive element 8, the button on the electronic device of the test leak is pressed to determine the speed of the probe and at the same time the operator starts to move the probe at a uniform speed along the linear scale 7. When the probe passes opposite the test gas outlet 9 the operator visually registers the maximum output signal of the leak detector at a given probe speed. The average speed of the probe is determined by the electronic device according to the results of processing the received signals from the sensitive elements and is calculated by the ratio

where:

V _CP - the average speed of the probe probe leakage, mm / s;

b is the distance between the sensing elements, mm;

n is the number of sensitive elements on a linear scale;

τ _i is the time of overlapping with the probe of the i-th sensitive element, s;

τ _i-1 - time of overlapping with the probe of the previous (i-1) -th sensitive element, s.

The number of sensing elements n and the distance between the sensing elements b are entered into the memory of the electronic device. If the sensitivity of leak detection is insufficient, the operation of moving the probe along the linear scale is repeated, while pressing the button on the electronic device again resets the previous speed value.

Claims (1)

A control leak with a linear scale for determining the speed of movement of the probe of the leak detector, characterized in that on the linear scale along the path of the probe the sensing elements are placed at the same distance from each other, communicating with an electronic device that can count after the probe is carried out on a linear scale with sensitive elements the value of the average speed of the probe in the ratio:

where V _СР is the average velocity of the probe of the leak detector, mm / s; b is the distance between the sensing elements, mm; n is the number of sensitive elements on a linear scale;

- time of overlapping with the probe of the i-th sensitive element, s;

- time of overlapping with the probe of the previous (i-1) -th sensitive element, s.

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