SU1746079A1 - Pump plant - Google Patents

Abstract

The use in various industries of the device for pumping and stepless, including remote dosing of highly aggressive, toxic, viscous liquids and melts using the energy of compressed air. The essence of the invention: the dose of delivery for one cycle of operation of the installation is controlled by connecting the reed switches of the metering device, the lower the other reed switch is located on the ruler relative to the upper reed switch. the greater the dose of issue. Accounting for the pumped product is carried out when calculating the amount of closure of the reed switch. By knowing the number of closures and the dose of delivery, the total flow rate of liquid 1 is determined.

Description

The invention relates to devices for pumping and stepless, including remote, dosing of highly aggressive, toxic, viscous liquids and melts using compressed air energy, and can be applied in the chemical, radio and other industries.

The known pump installation, which contains a feed tank connected to a feed pipe equipped with a valve, with a pneumatic replacement pump having a working chamber, a discharge pipe with a non-return valve, an air pipe with a distribution device connected to the compressed air supply pipe and an air discharge pipe, at the same time, the air duct is provided with a moving in vertical direction pipe with a float valve

A replacement pump is also known, containing a source of pumped liquid, working chambers with

sensors of the upper and lower levels, supply and discharge pipelines with check valves installed on them. a high pressure gas source; a pneumatic control system with switching valves of working chambers to which an intermediate pressure source is connected.

The disadvantage of the installation is the impossibility of pumping melts and viscous liquids, which limits its scope.

The aim of the invention is to expand the field of application by allowing the pumping of melts and viscous liquids by allowing the pumping of melts and viscous liquids, eliminating losses of the product being pumped, ensuring a continuous dosed supply of the product, and easy accounting of the amount of the product being pumped.

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ABOUT

The goal is achieved by the fact that a pump installation containing a working chamber, suction and discharge piping with suction and discharge valves, a dosing device, a system for monitoring the operation of the installation according to signals from a dosing device, gas supply and drainage pipelines with like valves connected to the control system, source the pumped liquid is equipped with a buffer tank, the source of the pumped liquid is made in the form of a nutrient tank, the working chamber and the buffer tank are inside the latter, the metering device is made in the form of a pipe from a non-magnetic material with a reed switch line installed inside it and a coaxially installed pipe with the possibility of axial movement of the annular poplazk with an annular magnet, while the gas drainage pipeline communicates with the taiga zone of the feed tank and is equipped with a gas jet divider, The suction pipe is in the form of a socket, and the suction valve is connected to the control system.

The drawing shows the installation diagram, a longitudinal section.

The pump installation contains a working chamber 1, a buffer tank 2 installed in the feed tank 3 (with a drainage tube) suction nozzle 4 blocked by a suction valve B, discharge pipe 6 with discharge valve 7, a metering device in the form of a tube 8 of non-magnetic material installed inside with a ruler of 9 reed switches and an installed coaxial tube 8 with the possibility of axial movement relative to it of an annular float 10 with an annular magnet 11, a gas supply pipeline 12 with a gas supply valve 13, a pipe gas piping line 12, gas drainage pipe 14 with gas drain valves 15, unit operation control system 16, to which valves 13 and 15 are connected, respectively, supply and gas drainage, metering device, suction valve 5, and drainage pipe 14 is connected to the overhead pipe zone feed tank 3 and is equipped with a divider 17 of the gas jet.

Pump installation works as follows.

The working chamber 1 is completely filled with the pumped liquid from the feed tank 3. At the same time, the control system 16 is supplied to the valve 1B by the dosing device signal (8-11)

gas drainage, opening access to the discharged air from the working chamber 1 through the gas drainage pipeline 14 into the supra-fluid space of the feed tank 3,

equipped with a drainage tube. After the predetermined time required for pressure relief in the working chamber 1, the control system 16 instructs the suction valve 5 to open the suction nozzle 4. When the filling of the working chamber 1 is completed, the dosing device is activated: the ring magnet 11 of the ring float 10 the lines of 9 reed switches, which are permanently connected to the control system 16 and which controls the upper level of the liquid in chamber 1. The signal from the metering device enters the system 16, which

0 then commands the valve 5 to close the suction inlet 4, valve 15 to shut off the gas drainage pipe 14 and the gas supply valve 13, opening access to the compressed air from the pipe 12

5 gas pods into the working chamber 1. In this case, the compressed air displaces the liquid in it, which through the outlet with the valve 7 enters the discharge pipe 6 and the buffer tank

D 2. The pumped liquid fills the buffer tank 2 until the pressure of air in the supra-fluid (upper) part of the latter is equal to the pressure of compressed air in the pipeline 12

5 As the flow rate of the liquid in the working chamber 1 falls. When it reaches a predetermined value determined by the dispensing dose, the metering device is activated: the magnet 11 of the float 10 causes the corresponding line 9 installed in the reed switch system 9 installed in the pipe 8 to close. The signal from the metering device goes to the control system 16, which then gives commands to the valve

5 C to shut off the gas supply pipeline 12, shut off the access of compressed air to the working chamber 1, and to the valve 15 of the ejector drainage. The compressed air from working chamber 1 is directed (discharged) through conduit 14

0 gas drainage, equipped with a gas jet divider 17, into the liquid-fluid zone of the feed tank 3. At the same time, the particles of the pumped liquid captured by the stream of discharged air and reflected by the i7 separator are deposited on the surface of the liquid in the nutrient tank 3. After the pre-installation time has expired; the time required for pressure relief in working chamber 1, the control system U gives ohms / 1 / NACLE to giving valve 5 to open the suction inlet 4. Liquid from feed tank 3 enters working chamber 1, and the cycle repeats.

During the filling of the working chamber 1 with the pumped liquid, the supply of the latter through the discharge pipe b does not stop, since from the moment the outlet opening of the working chamber 1 is closed by valve 7, the liquid begins to flow from the buffer tank 2 due to the pressure of compressed air in its supra-fluid part. This ensures the continuity of the supply of the product being pumped and, as a result, the possibility of using the installation in processing lines with a continuous production process.

Claims (1)

The amount of fluid displaced in one installation cycle (dispensing dose) is regulated by connecting to the control system 16 together with the upper reed switch one or another downstream reed switch of the ruler 9 reed switch metering device. In this case, the following circumstance is taken into account: the lower the connected reed switch is located on the ruler 9 relative to the upper reed switch, the larger the portion of the product pumped over in one cycle (dispensing dose). To account for the pumped product in the control system 16, the number of closures of the pressure switch is counted. By multiplying the number of closures by the number of product pumped per cycle (issue dose), the total flow rate is obtained, which is necessary, for example, in the process. Formula of the Invention Pump installation comprising a working chamber, suction and discharge piping with suction and discharge valves, a dosing device, a system for controlling the operation of the installation based on signals from a dosing device, gas piping and drainage pipes of the same name connected to the control system, and the source of pumped liquid characterized in that, in order to expand the field of application by ensuring the transfer of melts and viscous liquids, the installation is equipped with a buffer The source of the pumped liquid is made in the form of a nutrient tank, the working chamber and the buffer tank are installed inside the latter, the metering device is made in the form of a pipe of non-magnetic material with a reed switch line installed inside it and a tube installed coaxially with an axial movement of an annular float with an annular magnet This gas drainage pipeline is connected to the suprafluid zone of the feed tank and is equipped with a gas jet diffuser, the suction pipe is made in the form of pas the tube and the suction valve are connected to the control system. Drainage 2 15 13 7 10 9 I