SU1070521A1 - Apparatus for filling and dumping reservoirs - Google Patents

Abstract

A DEVICE FOR FILLING AND EMPTYING CAPACITIES containing a source of compressed gas, a pneumatic system and a tank, characterized in that, in order to improve efficiency, the pneumatic system is made of reversible subsonic and supersonic ejectors, the inputs of which through pneumatic switches and normally closed and normally open valves are connected respectively to the source of compressed gas, while their first are connected to each other and to the tank, and the second to the atmosphere, and between the first and second outputs are reversible s supersonic and subsonic ejectors are mounted respectively normally open and normally za- i indoor flaps connected between (A and with a source of pressurized gas seq. -

Description

The invention relates to pneumatic automation and can be used to fill and empty containers in a wide range of pressure variations from a source of compressed gas.

A device for filling a container is known, which contains a source of compressed gas, a pneumatic system and a container fl.

The drawbacks of the device are the limited functionality associated with the impossibility of its use for emptying the container, and low efficiency, due to the low utilization efficiency of the energy of the compressed gas from the source of compressed gas when filling the container.

Closest to the proposed technical essence and the achieved result is a device for filling and emptying the tank, containing a source of compressed gas, a pneumatic system and a tank 2 ;.

However, the known device is characterized by insufficient profitability associated with an increased consumption of compressed gas and insufficient efficiency of using its energy when filling and emptying the container.

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

This goal is achieved by the fact that in the device for filling and emptying a tank containing a source of compressed gas, a pneumatic system and a tank, the pneumatic system is made of reversible subsonic and supersonic ejectors, the inputs of which are connected through pneumatic switches and normally closed and normally open valves to a source of compressed air. gas, while their first outlets are connected with each other and with capacity, and the second with the atmosphere, and between the first and second outputs of the reversible supersonic and subsonic ejectors installed, respectively, normally open and normally closed valves connected to each other and with a source of compressed gas.

The drawing shows a schematic diagram of a device for filling and emptying a container.

The device contains a subsonic reversing ejector 1 and a supersonic reversing ejector 2, the inputs 3-6 of which through pneumatic switches 7 and 8 normally open valve 9 and normally closed valve 10 are connected to the source 11 of compressed gas, and their outputs 12 and 13 are interconnected and with a capacity of 14, and exits 15 and 16 - with the atmosphere. Between outputs 13 and 16 reversing

supersonic ejector 2 and outputs 12 and 15 of the reversible subsonic ejector 1 are installed, respectively, a normally open valve 17 and. normally closed valve 18 connected to each other and to a source 11 of compressed gas, at the outlet of which a filter 19 is installed.

The device works as follows.

When you open the source 11 of the compressed gas through the filter 19 is supplied to the normally open valve 9 and to the normally closed valve 10, as well as to the normally open valve 17 and normally closed valve 18.

Normally open valves 9 and 17 and normally closed valves 10 and 18 are configured in such a way that at high gas pressures in the source 11 of compressed gas, for example, in the range from 200 kgf / cm to 15 kgf / s, normally open valves 9 and 17 and closed normal 1 o closed valves 10 and 18, and at low gas pressures in the source 11 of compressed gas, for example, at 15 kgf / cm and below, vice versa, normally closed valves 1b and 18 are open and normally open valves 9 and 17 are closed In this case, the opening pressure of normally closed valves 10 and 18 is greater than the pressure and actuation normally open valves 9 and. 17

When filling the tank 14 and high pressures in the source 11 of the compressed gas, the latter through a normally open valve 9 and a pneumatic switch 8 is fed to the inlet 5 of a reversible supersonic ejector 2, the outlets 13 and 1c of which are communicated by a normally open valve 17, and ejects gas from the atmosphere through the outlet 16 to exit 13 and further to tank 14. At this time, inputs 3 and 4 of the reversible subsonic ejector 1 are cut off from the source of compressed gas by the normally closed valve 10, and its output 12 is cut off from exit 15 and, accordingly, from the atmosphere is normally closed fifth valve 18.

When the pressure drops in the source

11 compressed gas before the pressure of normally closed valves 10 and 18 is opened, the latter are opened, ensuring that tank 14 is filled additionally from outlet 12 of the reversible subsonic ejector 1 with compressed gas coming through a valve that is normally closed, 10, and a pneumatic switch. 7 on his way out 12 and. ejector: by evacuating gas from the atmosphere through its outlet 15 and normally closed valve 18.

With further pressure drop in tank 14, they close normally.

the open valves 9 and 17 and the filling of the tank 14 is carried out only through the reversible subsonic ejector 1

Emptying the tank 14 is the same way. With this gas. from the source 11 of the compressed gas is supplied through pneumatic switches 7 and 8. To the outlets 15 and 16 of the reversible subsonic 1 and supersonic 2 ejectors, respectively, it is ejected from the outlet 14 through the outlets 12 or 13, and released to the atmosphere through the outlets 15 or sixteen.

Work at high pressures in the source 11 of the compressed gas on a supersonic ejector succeeds in obtaining an ejection coefficient K of more than 20, which increases the service life of a single source of compressed gas by almost 20 times. At low pressures in the source 11 of compressed gas, it is more profitable to operate subsonic ejectors, since under these conditions they have a relatively large ejection coefficient K. For this case, it is possible to get K on a order of 5-8 and maintain a sufficiently high compression ratio. Whereas the use of supersonic ejectors at pressures below 15 kgf / cm does not allow maintaining such a degree of compression without a sharp drop in K.

Thus, the present invention provides significant savings in compressed gas and the full use of its energy, resulting in improved efficiency of the device.

Claims (1)

DEVICE FOR FILLING AND CAPACITY EMISSIONS, containing a source of compressed gas, a pneumatic system and a tank, characterized in that, in order to increase efficiency, the pneumatic system is made of reversible subsonic and supersonic ejectors, the inputs of which are connected through the pneumatic switches and normally closed and normally open valves to the compressed source gas, while their first exits are connected with each other and with the capacity, and the second with the atmosphere, and between the first and second exits of reversible supersonic and subsonic ejectors are installed respectively normally open and normally closed tg indoor valves connected to each other and to a source of compressed gas. SU ,,,. 1070521