SU744690A1 - Pneumatic signalling device - Google Patents

Description

Union of Soviet Socialist Republics DESCRIPTION OF THE INVENTION TO COPYRIGHT CERTIFICATE ₍₁₁ ) 744 690 ai1 (61) Additional to author certificate woo - (22) 3Approved 11/07/78 (21) 2646812 / 18-24 (51) M. Cl with the attachment of application No. - G08 V 19 / OS | Bstate committee - G06 D 3/00 USSR (23) Priority - for inventions Published on June 30th, 2008. Bulletin No. 24 (53) UDC621.525 and discoveries (088.8) Date of publication of the description 03.07.80

(72) Authors B.M. Balbert, A.P. Lishenko and E.G. Dergachev of the invention ^g (71) Applicant Donetsk branch of the Institute Giprougleautomatization (54) PNEUMATIC ALARMS

The proposed device relates to alarm devices, providing the formation of warning signals before starting the facility.

Known pneumatic alarm device [1 ^, containing a relay, counter-parallel connected check valves and resistors connected to the control chamber of the relay.

Also known is a pneumatic alarm device [2 ^., Containing ^{, 0} three-membered turnip with spring, normally open valve, capacity, chain. ' ki in the form of series-connected variable resistors of check valves connected to the relay chambers, the input and output of the device.

The disadvantages of the known devices is low reliability, since the energy of the input signal of the device is _{χ the} working fluid of inertial links. , In some cases, the existing air conditioning means do not provide the required purity of the working fluid, which at 2 [leads to a change in the conductivity of pneumatic resistances and device failure.

The purpose of the invention is to increase the reliability of the device.

This goal is achieved by the fact that the device is equipped with a separator made, for example, in the form of an elastic spring-loaded membrane, the input of the device is connected to a chamber without a separator spring, a normally closed nozzle of a three-membrane relay and a nozzle of a normally open valve, the output of which is the first output of the device, a chamber with a spring the separator is connected to the non-return valves, the normally open nozzle of the three-membrane relay - with the counter input connected with the non-return valve separator, the chamber with the spring with its control the main chamber, and the output with the control chamber of the normally open valve and the second output of the device.

The drawing shows a schematic diagram of the proposed device.

The device contains a separator with chambers 1 and 2 of variable volume, an elastic membrane 3, a normally open valve 4, non-return valves 5 and 6, variable resistance 7 and 8, a three-membered turnip 9. Nozzle 10 of a normally open valve 4 and a nozzle 11 of a three-membered one. the input Pjyk of the device, and the output of the valve 4 is the first output Ρβ ^ χη of the device. Chamber 2 with a spring through a non-return valve 5, variable resistance 7 is connected to the control chamber 12 and chamber 13 with a spring of a three-membrane relay 9, and in the reverse direction ₁₅ of chamber 12 and 13, to a chamber 2 of variable volume through variable resistance 8 and a non-return valve 6. The nozzle 14 trehmembrannogo turnips 9 is connected to the input 15 of the check valve 20 6. The control chamber 16 is normally open valve 4 connected to the output 17 trehmembrannogo turnips 9, which is the second output U ^v F ° ^st1va th "

The device operates as follows.

When an input signal is applied to the input of the device, it passes through the normally open nozzle 10 of the valve 4 to the device output> ^{into the} chamber 1 at a variable volume of the separator. And deforms the membrane 3, which compresses and displaces air from the chamber 2 through the check valve 5 and the variable resistance 7 in the control chamber 12, a three- ₃₅ membrane relay 9, which, when turned on, opens the nozzle 11 and through the outlet 17 combines an input with a control chamber 16 of the valve 4 and with the second output of the device. Variable resistance ^d 40 7 adjusts the delay time of the output signal After removing the input signal, the pressure in the 'chamber 1 of the separator decreases and disappears Relay <2 · 45

In this case, the nozzle 11 of the three-membrane turnip 9 remains open for a time determined by the setting of variable resistance. Compressed air from the command chamber 12 of the three-membranous _5th relay 9 is blown through the resistance 8 and the check valve 6 into the separator chamber 2, “If the time between removal and supply of the next input signal Ρ βχ is less than the time determined by setting the variable resistance 8, then when the input signal is applied, the PgbtxiL signal appears; in the other case, the pressure in the chamber of the three-membrane relay 9 decreases to the level of its shutdown, the nozzle 11 closes, and the nozzle 14 opens and the excess pressure remaining in the chamber 12 in the communication lines through flow chamber 13, the nozzle 14 and the check valve 6 is discharged into the chamber 2 of the separator.

Further. ^ Work is similar to that described. This embodiment of the device increases the reliability of the device, since it is possible to form time delays with air circulation in a closed volume.

The prototype of the device has passed laboratory tests and will undergo industrial tests in mine conditions as part of the control equipment for coal-powered combines with pneumatic drive.

Claims (2)

The proposed device relates to signaling devices that provide for the formation of warning signals before the launch of an object. Known pneumatic alarm device l. containing a relay, parallel-connected non-return valves and resistances connected to the control chamber of the relay. It is also known to pneumatically equip a G2. Z2 signal, containing a three-membrane turnip with a spring, a valve that is open, SMKocTtt, jienp4, in the form of series-connected variable cogging of reverse cl & nans connected to the relay chambers, device input and output. The disadvantages of the known devices are low reliability, since the input signal energy of the device is the working body 1A of non-existent links. , In some cases, the existing means of “preparation” does not provide the required purity of the working fluid, which leads to a change in the conductivity of the pneumatic resistances and device failure.:. . The purpose of the invention is to increase the reliability of the device. The goal is achieved by the fact that the device is equipped with a separator, made, for example, in the form of an elastic spring-loaded membrane, the device is connected to a chamber without a separator spring, normally closed by a three-membrane relay and a normally open valve, the output of which is the first output of the device with a separator spring connected to non-return valves, a normally open nozzle of a three-membrane relay - with an inlet counter connected to the non-return valve separator, a chamber with a spring with its own ravl guide cam and vghod a control chamber normally open valve and the second output device. The drawing shows the principal: on the scheme of the proposed device. The device contains a separator with ivi &amp; paMH 1 and 2 of variable volume, elastic membrane 3, normally open valve 4, non-return valves 5 and 6, variable resistances 7 and 8, three membrane diaphragm 9. Nozzle 10 of normally open valve 4 and joint valve 11 three membrane. Turnip 9 is connected to the Rciu inlet of the device, and the outlet of valve 4 is the first outlet of the device PbblX-f. A chamber 2 with a spring through a check valve 5, a variable resistance 7 is connected to the control chamber 12 and a chamber 13 with a spring of a three-membrane relay 9, and in the opposite direction of the chamber 12 and 13 - to a variable volume chamber 2 via a variable resistance 8 and reverse valve b, Sopso 14 of three-membrane turnip 9 is connected to gate 15 of check valve 6 Control chamber 16 of a normally open valve 4 is connected to output 17 of trachemembrane relay 9, which is the second output. Devices. The device works as follows. When the input signal is fed to the device pg input, it passes through the normally open 10 valve 4 at the output of the P-5 device, at i into the variable volume chamber 1 of the separator, and deforms the membrane 3, which compresses and displaces the air from chamber 2 through the reverse the valve 5 and the variable resistance 7 to the control chamber 12 are a three-membrane relay 9, which, when turned on, opens the nozzle 11 and, via output 17, reports the input PB. with a control chamber 16 of valve 4 and with a second output P, at the device. Variable resistance 7 regulates the output signal delay time P blXo After the input signal Pg is removed, the pressure in chamber 1 of the separator and decreases. РБЫУ.2 disappears. At the same time, the nozzle 11 of three-membrane turnip 9 remains open for the time determined by the setting of the variable resistance. Compressed air from the command chamber 12 of the 9 trachemembrane relay is fed through resistance 8 and non-return valve 6 into the dilution chamber 2, If the time for removal and supply of the next input signal P g- (less than the time determined by setting the variable resistance 8, then when the input signal Pg, the signal Pgbiy l appears. In the effective case, the pressure in chamber 12 of three-membrane relay 9 decreases to the level of its shutdown, the nozzle 11 closes, and the nozzle 14 opens and the remaining pressure in the chamber 12 in the communication lines The rotary chamber 13, the nozzle 14 and the check valve 6 are discharged into the separator chamber 2. Further work is similar to that described. Such an embodiment of the device improves the reliability of the device, since it is possible to form temporary delays in the circulation of air in a closed volume. testing and will undergo industrial testing in mining conditions as part of the control equipment of coal-driven combines with pneumatic actuator. Claims of the invention: A pneumatic signaling device containing a three-membrane relay with a spring, a normally open valve, two anti-parallel-connected non-return valves and in series with each of them connected resistances that are connected to the control chamber of a three-membrane turnip, the fact that in order to increase reliability, the device is provided with a separator, which is inserted into a chamber, for example, in the form of an elastic spring-loaded membrane, the device input is connected to the chamber without a separator spring, normally closed the nozzle of the three-membrane relay and the nozzle of the normally open valve, the output of which is the first output of the device, and the chamber with the separator spring are connected to non-return valves, the normally open nozzle of the three-membrane relay is connected to the inlet opposite to the non-return valve separator, and the spring camera, and the output is from the control amera of the normally open valve by the second input of the device. , . . ....,. . , .- .; , , ... . . - - Sources of information taken into account during the examination. 1.Certificate of application No. 2002540718-24, cl. G08 b 19 / GS 1.03.74. 2. Authors certificate of the USSR 435515, cl. G06 G 5 / OO, 1974 (prototype).