SU657291A1 - Pressure indicator testing plant - Google Patents

Description

The invention of the fireworks to the field of instrumentation, in particular to devices for testing pressure alarms. During the production of pressure alarm switches at manufacturing enterprises, as well as with input control at consumer enterprises, a laborious type of work is to check the response points of the alarm devices, i.e., the determination of errors of operation in different working conditions. The known settings of II, preassigned for checking the errors of the operation of the pressure alarms, are based on the principle of visual reference by the operator of the moment of rubbing or extinguishing of the lamps included. in the circuit of the contacts of the corresponding signaling devices, recording the pressure value at the moment of their switching with the subsequent processing of the measurement results. In the process of checking the alarms on such an installation, three verses are verified: the first sets the pressure according to the model of the gauge, the second records the moment of ignition or extinction of the bulbs, the third records the pressure of the Arabian tyuany of each of the tested alarms on the checklist. When testing pressure alarms using the aforementioned installation under mass production conditions, the verification process itself is quite pipe-tight and inefficient. A known installation for calibrating gauge instruments 2, co-operating a manifold for connecting pressure sensors to be tested, a pressure reducer, a standard pressure gauge, a logic and indicator device. The known device also does not provide a sufficiently high labor productivity when checking pressure alarms. The purpose of the invention is to increase the productivity of labor during the testing of pressure alarms. The objective is achieved by the fact that in the installation for testing pressure alarms,

containing a manifold for connecting pressure sensors to be tested, a pressure reducer, an exemplary manometer, a logic and indicator device, an indicator device is letter-typed, and lettered levers with the Validation and Badness symbols of pressure alarms being tested are inserted into it, and a logical device for checking each pressure alarm device Q in the form of an electromagnetic relay, the winding of which is connected in series. with a normally open contact of a pressure signaling device to a constant voltage source, a normally open is a contact of this relay connected in series with a button closing the circuit at an upper pressure limit, and a winding of a signaling device connected to a constant voltage source, and the winding of the electromagnet of the Signal Indispensability indicator is connected via a normally closed relay contact connected in series with the same button to the source of the reversed voltage, and through the second A normally open relay contact, connected in series with a button that closes the circuit at a lower pressure limit, is also connected to a constant voltage source. Mon testing the pressure alarm devices with a normally closed contact The contact of the alarm device is connected through the winding of an additional relay, and the normally closed contact of an additional relay is connected to a constant voltage source through an electromagnetic relay. FIG. 1 is a block diagram of the proposed installation; in fig. in case of electrical circuit of the device for testing one-co-ordinate signal of 1aator with normally open contacts; in fig. 3 - A basic installation diagram for testing single-contact detectors with normally closed contacts. The installation contains the control panel 1, the switch 2 selects the number of the group of contacts being checked; inverse commutator 3 selection of the type of the checked cogedt, logical relay-contact device 4 evaluation of the validity of contact

svsgemy alarms, direct-printing 55 switchboard 2 select the number of the group device 5, the collector 6 with the subjects being tested contacts with logical logic devices, gearbox 7, exemplary leyline contact device 4 and bookmanometer 8; checkable print alarms 5 suitable for 9.-9..all to test pressure alarms The control panel 1 is electrically connected to all the blocks and contains a switch for the number of the group of contacts of the alarms; switch type of contacts to be checked; a control button that the operator closes when the lower permissible pressure is supplied to the alarm device in accordance with the requirements of the technical conditions; a control button that the operator closes when the upper permissible pressure is supplied to the alarm device; power switch; light bulb, indicating the preparation of the installation to work. The switch 2 of selecting the number of the group of tested contacts, which is electrically connected with the control panel 1, contains a group of interconnected relays that select the electrical circuits of the contacts of the tested signaling devices in accordance with the numbers rpynnj set on the control panel 1. The basic electrical circuit of the installation without a switch selects the number of contacts for testing single-contact warning devices with normally open contacts including a normally open contact of the first alarm device ip, normal.-open contact of the 5th alarm indicator of the relay 11, monitoring the contact status of the 1st alarm device ; A relay 11 monitoring the state of the contact of the nth signaling device, an i2 print electromagnet, the validity of the 1st alarm device; Electromagnit nit seal of the 12th expiration date of the Pth annunciator; the electromagnet of the seal 13 of the unsuitability of the 1st alarm device; print electromagnet 13 |, unsuitable p-th signaling device; Normally open contacts 15} -relay normally closed contact 1.6-rel8 iij (; normally open contacts 14i, 15 |, relay UnJi normally open contacts 14 c, 15 c, turnips 11, normally closed contact, relay I, control button 17, which the operator closes when the lower permissible pressure is applied to the ampli- fier of the operating pressure; control button 18, which the operator closes when the upper operating tolerance pressure is supplied to the alarm. The installation with the control panel 1 and not H; normally open contacts. To ensure universal assembly and expansion of its functional capabilities, an inverse coffer 3 was inserted into it to select the type of contacts to be tested, transforming the contacts of the alarm devices from the normal to the closed state to the normally open state. with normally closed contacts contains an inverse switch for selecting the type of contacts to be checked. The inverse switch 3 consists of a group of relays 19 (Fig. 3), the windings of which are connected in series with the contacts of the test signaling devices 10.-10 |, and the normally closed contacts of the relay are connected in series with the windings AND; | -I j of the logical burst-turn device 4 A logical relay-kongakgnoe device 4 assessing the validity of contact systems of signaling devices consists of a turnip group (FIG. 2), the windings of which are connected in series with normally open contacts of the test detectors, and contacts 14, q, ISj. ,, 16fi & RICH relays included Enen sequentially with the windings of the corresponding electromagnets 12., 12. and 13 - 13 of the direct-printing device 5, the alpha-printing device 5 consists of 2 C-th number of electromagnets 12p, 1311 (FIG. 2), which, through a system of levers, have a mechanical connection with the shock letter snarling a gamna that directly prints conditional letters on a test sheet, (for example, G-goden, H-unfit), the operation of the installation is as follows. On the collector 6, the number of detectors 9 to be checked is installed, the plug of the installation is connected to the plug connectors and the power supply is switched on. On the control panel 1, set the group number switch and the type of tested contacts to the appropriate position. Gearbox 7 in the manifold 6 sets the pressure corresponding to the upper & allowed value of the response pressure of the alarm indicator, TU, which is monitored using an exemplary gauge. Consider the operation of the installation in case of suitable alarm devices, according to the diagram in FIG. 2, when, upon supplying the upper pressure limit, their normally open contacts of the 1 O signaling devices are shut down and turn on the relay 11, - 11 These relays prepare their circuits for triggering the corresponding print electromagnets 12 with their normally open contacts 15-15. - 12 shelf life alarms. Pressing the button 18 on the control panel closes the power supply circuit of the electromagnets, the power supply circuit of the electromagnets a. Then, in the collector 6, a pressure is established which corresponds to the lower permissible value of the operation of signaling devices according to specifications, In this case, if the signaling devices 1O - 1O, their contacts open and disconnect the relay 11 - which, with their normally open contacts 14-14f, break the power supply of the printing electromagnets 13 - 13j-, and when the button 17 is pressed on the control panel, the electromagnets do not break down and there is no seal on the test sheet. In the case of unusable signaling devices, two types of defects can take place; The detector is invalid at the upper limit, i.e. it does not work when the upper permissible value is applied. According to the pressure specification; the detector is rated at the lower limit, i.e. it is triggered when a lower TUT pressure is applied. The logical relay-contact device | STVO 4 of the proposed installation makes it possible to determine not only the fact of the fault of the detectors, but also its appearance, which is very important when returning the packaged alarm devices for revision. The operation of the plant in the event of a failure of the detectors at the upper limit is as follows. Suppose that the tested alarms (10.-10s) do not open when they are supplied, and the pressure in them corresponds to the upper and lower limits of the operation (Fig. 3). In this case, the relays 19–19 will be turned on with their normally closed contacts 20 20 | disable relay 1 Ij - 11). These turnips, with their normally closed contacts, 16–16 f, prepare circuits for sabotaging the printing electromagnet

13 - ISp) alarm failure. When the button 18 is pressed on the control cord 1, the power supply circuits of the printing electromagnets 13-13 are closed and the direct-printing device 5 stamps on the calibration sheet H corresponding to the signals about the failure of the alarms at the upper limit of the operation. When the button 17 on the remote control 1 is pressed, the letter-printing device 5 will not work and there is no printing on the test sheet. The operation of the installation in the event of a rejection of signaling devices at the lower limit is as follows.

Suppose that the monitored detectors are closed when pressure is applied to them, corresponding to the upper and lower limits of srabvashash. In this case, i the relays 11–11 (FIG. 2) will be switched on by their normally open contacts 14–14 and 15 / | -15 circuits are prepared for actuating the corresponding print electromagnets 13 - 12 - 121 /,. Pressing buttons 17 and 18 on the remote control 1 closes the power supply circuits of electromagnets 13-13, j and 12-12T, and the printing device 5 prints on the Verification List the symbol NG corresponding to the alarm signaling indicator of the lower limit to operate.

Thus, the proposed installation allows not only to determine which of the tested alarms do not fit into the response tolerance, but also shows the nature of the error of each of the defective alarms, and the measurement results are printed on a test sheet. In the work with the installation, one operator is hired, and the test time for the Cth number of alarms, after the pressure has been set in the collector, is governed by the time, which is 5 $ 1 t for the corresponding number of button presses on the control panel.

Claims (2)

Invention Formula li Installation for testing pressure alarms containing a manifold for connection of the tested pressure alarm devices, pressure reducer, model pressure gauge, logic and indicator devices, different that, in order to improve performance, the display device is literal, and lettered levers are inserted with the symbols of Availability and Unsuccessfulness of pressure signaling devices under test, and a logical device for checking each pressure signaling device is made in the form of an electromagnetic relay, the winding of which is connected in series with a normally open signaling contact pressure to a constant voltage source, the normally open contact of this relay, in series with the button, is closed When the upper pressure limit is applied, and the electromagnet winding is connected, the detector is connected to a constant voltage source, and the electromagnet winding of the ipacifier is connected through a normally closed relay contact, sequentially connected to the same button, to a constant voltage source, And a second normally open relay contact, connected in series with a button that closes the circuit at a lower pressure limit, is also connected to a constant voltage source. 2. Installation under item 1, that is, so that, with the pressure alarm test circuit with a normally closed contact, the alarm contact is connected through the auxiliary relay winding, and the auxiliary contact of the additional relay through the electromagnetic relay winding connected to a constant voltage source. Sources of information taken into account in the examination 1.- Electrical pressure alarms. Description and maintenance instructions, Oborongiz, 1958, p / 12. f 2. USSR Author's Certificate No. 201747, class 01 L 27/00, 1966. W 1 ° / 7 / 5 -ri ° W  I Jw. 11i well l - / X network W .: g7