SU1013780A1 - Pressure indicator - Google Patents

Abstract

A PRESSURE SIGNALIZER, comprising a housing, is installed in an insulator, insulated from the housing, a spring-loaded non-return valve with a contact seat, in which a through channel is made, and an electrical terminal insulated from the housing, so that recording the duration of the pressure pulse increase at different values of the constant pressure component, OH is provided with a through-valve made of a dielectric material, installed in the channel of the contact seat and pressed with an additional spring to the reverse CB stem, S Pan, which is formed through a central calibrated channel. (L

Description

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The invention relates to a measurement technique, in particular to pressure alarms used in diagnostics and monitoring of the performance of hydraulic and pneumatic systems of machine units.

Pressure signaling devices are known, comprising a housing and a contact assembly: with a fixed element insulated from the housing, and. movable spring-loaded element serving fl.

In such alarms, the contact node triggers for zylekaniyu or opening an electrical circuit when the pressure threshold of the liquid or gas reaches the threshold when the movable spring-loaded element begins to move, and remains in this position until the pressure is removed. The magnitude of the pressure threshold at which the contact node is triggered is determined by the spring stiffness of the moving element. Pressure signaling devices are widely used to fix the in-test object when a certain pressure threshold is exceeded, short or open the contacts through which the voltage is applied. or measurement.

One of the tasks for diagnosing hydraulic units is to measure the duration of the increase in the amplitude of the hydraulic pulse created in the hydraulic unit. In this case, the detector should record the moment of the beginning of the increase and the moment of reaching the maximum value, amplitude in the presence of a constant component of the pressure in the hydraulic system, which can vary over a wide range.

The known pressure alarm devices cannot be used for this purpose, because they record the duration of the entire hydraulic pulse at a given level. Another disadvantage is the impossibility of fixing the hydraulic impulse if the value and constant component of the pressure varies within wide limits, since, according to | HOR, the signaling device of the device -1: is infused by a constant tightening of its string .;

The closest to the technical essence of the present invention is a contact signaling device: using a F1 in the Daig-i lubrication system as a indicator of filter load j. The signer includes a housing in which it is installed, a check valve with a spring-loaded stem and a terminal insulated from the housing, and the valve inlet and outlet are connected to the pressure line, through filter C2. 3 The alarm device is activated when there is a pressure differential on the filter and will be in the on state independently from the resulting impulses. It also cannot be used to record the duration of a pulse created in a transient mode of operation of a hydraulic system, or pneumatic system, the constant component of the pressure in which varies widely.

The purpose of the invention is to create a pressure alarms, providing registration of the duration of the pressure pulse increase at different values of the constant pressure component.

This goal is achieved by the fact that

. The alarm indicator, comprising a housing in which a spring-loaded non-return valve with a contact seat in which a through channel is installed is installed, and an electrical terminal insulated from the housing, is provided with a pass-through valve made of a dielectric material installed in the channel of the contact saddle and pressed with an additional spring to the return valve valve in which there is a central, through, calibrated channel, blocked by a through valve.

Figure 1 shows the Pressure detector; Fig. 2 is a diagram of the activation of the contacts of the detector when pressure pulses occur in the test object.

The pressure detector (Fig. 1) comprises a housing 1, in the inlet channel of which a screen filter i is installed

2 and through the gasket 3, the seat 4 is pressed, inside of which is installed a through-flow valve 5 made of a dielectric material. The valve 5 is pressed by the spring 6 to the check valve 7, which is pressed by the spring 8 installed in the pressure fitting 9 to the seat .4. The spring 8 is isolated from the clamping nozzle 9 by the insulator 10 and is in contact with the screw 11, which is also insulated from the nozzle 9 by the insulator 10 and the sealing gasket 12, which is pressed against the connecting terminal 13. A measuring circuit is connected to the terminal 13 through the gaskets 14 by means of a nut 15.

: The check valve 7 is provided with a through-calibrated through-channel 16.

When diagnosing a hydraulic unit, the input channel of the housing .1 signal, the mash is connected with a transition nipple to the pressure line, and the output terminal 13 and the housing 1 are connected in the electric circuit of a hydroimpulse time meter, which measures the duration of the opening circuit of the contact circuit. The alarm is activated by the pulse pressure generated by the working fluid (liquid or gas), the electrical circuit of the recording device is disconnected between the housing 1 and the valve 7. At a constant pressure of the hydraulic unit in the alarm through the calibrated channel 16, the pressure is set, so that the check valve 7 pressed to the saddle 4 and the circuit between the valve 7 and the housing 1 is closed. At the moment of the appearance of the impulse, the JAvpen (P, P, R. fayg. 2;) valve 7 departs from the saddle 4, and the contact circuit opens. The time (Ura phi d.2) of the opening is determined by the duration; by increasing the pressure front (P, P2fPa) f to its maximum. At the moment when the increase in the amplitude of the hydroimpuse stops, the valve 7 is again pressed by the back pressure to the saddle 4. After this, the maximum value of the pressure, which decreases in the system from the alarm portion behind the valve 7, is reset in the system after the pressure pulse in the system decreases. Alibrovan an orifice e 16 and the pribkhnbny valve 5 and the magnitude does not cause opening of the contact circuit. The triggering threshold .AP (Fig. 2} of valve 7 is set by the rigidity of the selected springs 8 and 6. It is based on the necessity of blocking the operating pulsation r so that the fiksi alarm can only reach extreme pressure values P, P, - exceeding a predetermined pulsation level dP; Thus, the valve 7 of the detector triggers and opens the contact circuit only when extreme pressures occur that exceed a predetermined threshold ДР in the flow of working fluid (or gas), regardless of the value of the constant pressure component (Growth /: 1 2 OST. H oer.i Fig. 2). Due to; through valve 5, operation of valve 10 is stable without chattering, which is very important for accurate measurement of the duration of increase in hydraulic pulses. Such a pulse pressure alarm can be effectively used for fixing pressure pulses in the hydraulic system and pneumatic system of tractors, combines, automobiles and other momvnn, in order to assess their technical condition. When using it, it is not required to enter the electronic circuit of the measuring device of the selection device, or blocking the bounce contacts, which greatly simplifies and reduces the cost of equipment and improves the accuracy of measurement of the parameters of the pulse pressure. The annual zonic effect from the introduction of the pulse pressure indicator combined with the KI-13940 diagnostic system at enterprises of the State Committee for Agricultural Engineering will be at least 3 rubles. on one tractor or 1500 rubles. on one alarm device.

Claims (1)

PRESSURE SIGNALIZER, comprising a housing in which a spring-loaded check valve isolated from the housing is installed with a contact seat in which the through channel is formed and an electrical terminal isolated from the housing, so that, in order to registration of the long axis of pressure pulse growth at different values of the constant component of pressure, it is equipped with a passage valve made of dielectric material installed in the channel of the contact seat and pressed by an additional spring to the return kla- _with Pan, which is formed central, © through calibrated channel. 1 1013780 2