SU684155A1 - Fluid-driven diaphragm pump - Google Patents

Description

(54) DIAPHRAGM HYDROPHEMO-DRIVE PUMP

The outer surface of the bag-shaped diaphragm 7 is covered with a tension by an elastic ring 8 of circular cross section. On the core 3, at the extreme points of intersection of the elastic ring 8, limit switches 9 and 10 are placed, connected to the control circuit of the switchgear 4. The internal cavity 11 of the bag-shaped diaphragm 7 is connected to the switchgear 4 through the open bottom end of the tubular core 3, and the internal cavity 12 of the diaphragm b communicated with the distribution device 4 in the upper part of the core 3 through the tube 13. The housing 1 is provided in the upper part with the outlet 14.

When compressed gas is supplied from the cylinder 5 through the distributor 4 to the cavity of the tubular core 3, the gas enters through the open lower end of the core 3 into the cavity of the bag-shaped diaphragm 7, which, inflating from below, occupies the internal volume of the housing 1, displacing the pumped out of it liquid. In this case, the ring 8 prevents the simultaneous stretching of the diaphragm 7 along the entire length and, rolling over it, ensures the gradual displacement of the fluid from the bottom up. Pressing inflated with a diaphragm 7, the liquid enters the outlet 14 and then to the consumer. At this time, the internal cavity 12 of the tubular diaphragm 6 communicates through the distributor 4 with the atmosphere and therefore the diaphragm b does not prevent the ring 8 from rolling.

At the end of the discharge stroke, when the internal cavity of the housing 1 is completely occupied by the inflated diaphragm 7 and all the liquid from the cavity of the housing 1 is displaced, the elastic ring 8 runs onto the limit switch 10, at the signal of which the switchgear 4 switches to another position. The core cavity 3, and, consequently, the cavity 11 of the diaphragm 7 communicates with the atmosphere, and the cavity 12 of the diaphragm b - with the balloon 5, the compressed gas entering the cavity 12 through the tube 13, inflates the diaphragm b, which moves the ring 8 in the lower position. From cavity 11, the gas is vented to the atmosphere. The liquid from the water source again fills the cavity of the housing 1.

In the lower position, the ring 8 runs

to a limit switch 9, on the signal of which the switchgear 4 switches to its initial position. Next, the pump cycle is repeated.

Due to the gradual expansion of the bag-shaped diaphragm 7, the organization of the displacement of fluid from the housing 1 is improved, its complete displacement is achieved and, consequently, the efficiency of the pump is increased.

Claims (2)

1. Diaphragm-type 1H hydropneumatic drive pump containing a tubular core for supplying driving medium from a controlled switchgear and an elastic bag-shaped diaphragm disposed in the tubular body and extending into the core the outer diameter is equal to the inner diameter of the case, characterized in that, in order to increase the efficiency of operation, the core is provided with an additional tubular diaphragm enclosing it, which is located inside the bag-shaped a diaphragm and a diameter in the stretched state, smaller than the inner diameter of the case, and on the outer surface of the bag-shaped diaphragm is enveloped with a tension of the elastic spring with a circular cross-section. 2. Pump according to claim 1, characterized in that, in order to automate the operation of the pump, limit switches connected to the control circuit of the switchgear are located at the extreme points of movement of the elastic ring on the core. Sources of information taken into account in the examination 1. Patent of Germany No. 1040375, cl. 59 and 35. publ. 1959.