RU1831586C - Membrane pneumatic drive pump - Google Patents

Description

The invention relates to the field of engineering, in particular to diaphragm pumps for transporting and dosing aggressive, toxic and explosive atmospheres.

The aim of the invention is to expand the functionality due to the ability to connect the air distributor to a group of pumps of different capacities and increase efficiency.

A pneumatic distributor and a switch, structurally disconnected from the pump casing, significantly simplify the design, reduce the cost of manufacture, repair and maintenance. Separately manufactured pneumatic distributor and switch assemblies make it possible to unify them for pumps of various models and capacities. For example, an air diffuser with a valve diameter of 30 mm

ensures the operation of pumps with capacity in the range from 1 to 20 m3 / h.

The design of the switch allows the pumps to operate in an even wider range of capacities. The design of the air distributor in the form of a separate membrane unit is much easier to manufacture, more reliable in operation than the air distributor in the form of a piston, since there are no friction parts, seals in the membrane unit and the possibility of jamming is excluded. In addition, a group of pumps of different capacities can be connected in parallel to the membrane air distributor. In the latter case, the pump acts as a generator pulsating the air pressure.

The switch, equipped with nozzles with a damper, is easily mounted on the pump casing, easy to manufacture and reliable in

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work. The design of the switch allows the pump to be used as a dispenser by varying the stroke of the rod with adjustable stops on it.

Figure 1 shows a General view of the pump; figure 2 - node switch; Fig. 3 shows a schematic diagram of the arrangement of a membrane pneumatic distributor and the channels for its connection. to pump pneumatic chambers and a switch.

The double diaphragm pneumatic pump (Fig. 1) contains pressure chambers 1, 2 and pneumatic chambers 3, 4, separated by membranes 5.6. ,

The discharge chambers 1, 2 through the discharge valves 7 and 8 and the inlet valves 9 and 10 are connected by manifolds 11 and 12, respectively.

The membranes 5 and 6 through the disks 13 and 14 are connected by a rod 15, in the middle part of which, on the rack 16, adjustable stops 17 and 18 are installed.

The pneumatic chambers 3 and 4 of the channels 19 and 20 are connected to the pneumatic distributor 21. The pneumatic distributor 21 is made in the form of a four-membrane unit, in which the inlet valves 22 and 23 are connected to pressure sources and pneumatic chambers 3 and 4. The exhaust valves 24 and 25 communicate with the pump the atmosphere. The inlet and outlet valves 22, 23 and 24, 25 are closed in pairs and opened by applying or releasing pressure in the control chambers 26 and 27, which are connected through pressure restrictors 28 and 29 to a pressure source and switch 30. The switch 30 comprises fixed nozzles 31 and 32 and damper 33 between them.

The lever 34 is mounted on the axis 35, one end of which is connected to the shutter 36, and the other through the spring 37 to the earring 38. The pressure source is connected to the fitting 40, and the atmosphere to the fitting 41.

Double diaphragm air pump operates as follows.

The damper 36 of the switch 30 has a stable state only in the extreme positions when one of the nozzles is closed. Figure 2 shows the position of the shutter 36, overlapping the left nozzle 31, the right nozzle 32 is open. In this position of the shutter 36, the signal pressure through the throttle 28 enters the chamber 27 (the chamber is shaded) and

closes the valves 25 and 29 while the control chamber 26 communicates through the nozzle 32 to the atmosphere. The supply air enters through the valve 24 into the pneumatic chamber 4, the exhaust air from the pneumatic chamber 3 through the valve 24 is discharged into the atmosphere. The pump stem 15 under pressure in the pneumatic chamber 4 moves to the right and at the end of the movement with an emphasis 17 instantly switches the damper 33. The right nozzle 32 is closed and the signal pressure through the throttle 29, the valves 24 and 23 are closed, the valves 22 and 25 are opened. Supply air enters the left pneumatic chamber 3. moving the stem to the left. Next, the cycle repeats.

The stroke of the rod is set by adjustable stops 17 and 18 (size A).

Claims (2)

1. A diaphragm pneumatic actuator pump comprising membranes connected to one another with the formation of pump and drive chambers, a reversible distributor of the drive medium with a lever switch having a lever mounted on an axis and connected to the rod, characterized in that the rod is provided with a stand on which adjustable stops are installed, and the lever switch contains two nozzles and a shutter between them, mounted on one arm of the lever, and the other arm is connected through a spring with an earring to interact with the rod, while shareholder made in the form of a four-membrane unit having two cavities connected to a pressure source and drive chambers of the pump, and two control cavities connected through nozzles to a lever switch. 2. A pump according to claim 1, characterized in that the control cavities and the nozzles of the switch are connected to the pressure source via throttles. J / f & g 2 -i- / 31 y & l 76L M fg / 5.3