DE859256C - Diaphragm or piston pump - Google Patents

Description

Diaphragm or piston pumps With the electrification of agriculture There were also fundamental changes for the pumping of liquid manure and sludge water. Instead of the well-proven piston and diaphragm pumps that were used up until then stationary centrifugal pumps with high capacities were used almost exclusively. Included The great performance of these pumps was a purposeful necessity so you could also convey the sludge parts.

These centrifugal pumps have not proven themselves in practice. By Small foreign bodies can, depending on their entry into the pump body, cause major disturbances, housing damage often occurs.

Therefore one tries in more recent times again to the well-tried piston and to resort to diaphragm pumps, but this has so far failed because of the transmission were needed, which were usually too expensive. Likewise remained the piston and Diaphragm pumps, the hydraulic drive that has long been known, fails because that Frictional resistance for the hydraulic fluid in the profitability from the start Asked a question. In one embodiment that has become known, two diaphragms are used immediately acted upon by the hydraulic fluid conveyed by a centrifugal pump. These Design has complicated controls and branched pipelines.

The present invention overcomes the above-described shortcomings. the The membrane or the piston of the pump is directly driven by a centrifugal pump applied hydraulic fluid. The hydraulic drive is according to the invention Installed in the pump housing in such a way that all control org ane and the centrifugal pump are enclosed by this stuffing box. The well-tried manure and sludge pump constructions can here without the reduction gear that has been so feared since then with the great friction loss associated with it by means of an electric motor hy draülisch and can be driven as required. As a result of the lower Friction loss as well as normal pumping power is only about half the motor power of centrifugal pumps required. The pumps are through the simple drive hardly heavier than the earlier hand piston pumps and can accordingly can easily be taken from the cesspool in the machine shed they can also be mobile and provided with fixed or movable services. Above all In the case of the new drive, the dreaded leakage of the hydraulic drive is no longer an issue Drive completely away. The service life of the pumps known up to now is about to exceeded many times.

The efficiency is achieved by combining the centrifugal pump and the entire hydraulic control device in the oil-filled pump housing extraordinary favored. The path that the hydraulic pressure medium has to cover is conceivable low, and the controls move only within the fluid time that is preferably oil. The next step is to arrange the suction and pressure channels inside one another as well as the required slide switch and the centrifugal wheel no stuffing box and so that there is no part that can easily be damaged.

In the drawing is the novel hydraulic forming the invention Drive shown in only one embodiment, namely Fig. I shows a Membrane liquid manure and sludge pump with the electric drive in a side view, Fig. A the same pump in plan view, Fig. 3 the pump as Fig. I, however Pump and hydraulic drive in elevation, Fig. D. the oil pressure transmission like Fig. 3, but rotated by about gci °.

As can be seen from Fig. 3 of the drawing, serves for example the normal diaphragm, as used in hand pumps, at the same time as Oil piston acted on by the pressure generator on the opposite side will. The normal pump body with the suction chamber, the two valves, the pressure port and the diaphragm or piston have been adopted almost unchanged from the known hand pumps. Only the upper half of the housing has been modified and shaped so that it acts as an oil chamber with the built-in control device and od on the top. Like. The direct Allows attachment of the electric motor with a corresponding centrifugal wheel.

According to the invention, the pump housing a with a suction valve ä, a pressure valve d 'and the pressure port a` in the version usual for hand pumps, is built on a suction pipe m. Between the upper housing shell b and the pump housing a. the membrane c is installed. Instead of the push rod common in hand pumps, there is only one control spindle d and directly around it the oil suction nozzle b and the oil slide 1a and i in the oil chambers b ' and b " an intermediate wall divided into two oil chambers 1 and k, of which chamber 1 is formed on the one hand by membrane c and on the other hand by the lower part of upper shell b, while chamber k is completely built into housing b e 'is applied by the drive motor e a centrifugal wheel f. This centrifugal wheel f sucks out of the suction port g via the slide i and the auxiliary slide h from the oil chamber lz as shown in Fig the annular channel b "and from there via the auxiliary slide la, the slide i, into the oil pressure chamber 1, whereby the membrane is pushed directly downwards. If the membrane c is pushed so far down, i.e. the sludge water is pushed out through the pressure valve ä `, then the control spindle d with the edge d 'pulls the auxiliary slide la so far down that it opens the control openings h (Fig. D) above the Slide i- closes and the control openings h ″ under slide i are released . As a result, slide i receives overpressure from below and jumps upwards This process can be seen in fig i is provided with a separating rib ä and at this point the auxiliary slide IL is equipped with the control openings li or 1ä '. If the auxiliary slide lt is pulled down by the membrane c, the pressure opening above the slide Closed via i and opened below slide i. If the auxiliary slide is pushed up after the end of the pumping stroke, the pressure channel above slide i is opened again in the opposite direction, and the same. shoots down.

According to the invention, the membrane or the piston is on the one hand for Pumps, and on the other hand used as an oil pressure piston. It is driven by a normal electric motor that drives the centrifugal pump. Further can be adjusted by Intermediate or idle openings regulate the pump speed as required, which is of particular advantage if the barrel to be filled is soon full and not should overflow.

In the context of this invention, the type and combination can also be arbitrary differently shaped and on differently shaped pumps or machines with reciprocating Working cycle are transferred.

Claims (3)

PATENT CLAIMS: i. Hydraulically driven diaphragm or piston pump for sludge-containing liquids, the diaphragm or piston of which is directly acted upon by the pressure fluid conveyed by a centrifugal pump, characterized in that the hydraulic drive is built into the pump housing in such a way that all control elements and the centrifugal pump are enclosed by it without a stuffing box are. 2. Hydraulically operated diaphragm or piston pump according to claim i, characterized in that the hydraulic control elements (i, la) are arranged around the suction pipe (g) of the centrifugal pump so that they are controlled by a control spindle connected to the diaphragm or the piston (d ) are operated. 3. Hydraulically operated membrane or piston pump according to claims i and 2, characterized in that the speed of the pump is regulated by diverting the hydraulic fluid through an idle channel will. Referenced Documents: British Patent No. 295 2105.