DE569813C - Friction pump - Google Patents

Description

Friction Pump The invention relates to a self-priming friction pump with circulating auxiliary liquid, in which the conveying means is passed through an open Paddle wheel, which slides over corresponding friction channels, brought to pressure will.

Self-priming friction and centrifugal pumps are of similar design known, also the Z #. 'ity of these pumps is assumed to be known. The known pumps work with low efficiency on the one hand due to the their design and shape of the friction channels conditioned hydraulic processes and on the other hand as a result of unfavorable frictional work.

Attempts have often been made to determine the power factor for these types of pumps to improve. While the friction channel in the older models is more even radial width was provided, one is more recently for the purpose of creating a diffuser went over to constricting the friction channel in the middle in the radial direction, in order to convert the speed energy flowing through it into pressure.

Such a process is common and known according to the state of the art, but since the pumps work according to the friction principle, it is contrary to the friction theory if the usable radial contact surface of the friction channel is reduced by adding a constriction (diffuser). The diffuser effect obtained in this way becomes illusory due to the reduced radial contact surface, especially since the pumps work at only 1400 revolutions per minute with a rotor diameter of 130 mm. whereby the conversion of the velocity energy into pressure is very low in and of itself.

Taking into account the effect based on the principle of friction the pump, after which the blades sliding over open channels are those in the channels Set the liquid in motion or take it with you, without further ado it can be seen that the wider the friction channels, the greater the entrainment of the liquid have to be. For example, if you have a flat rod of 10 and 20 cm in length with each slide close to the surface of a water level at the same speed leaves and touches the water level, one becomes one with the longer stick set larger amounts of water in motion.

The same principle is also applied to the pump according to the invention followed the pumps known to date. The radial width of the friction channels is expanded analogous. in this way one increases the conveying capacity considerably and improves the Efficiency of the pump in a way not previously achieved. So that a backflow the liquid in the wide friction channels is avoided, are the same kept as flat as possible at the widest point in contrast to the known designs. The small depth of the friction channels eliminates at the pump according to the invention, the vortex formation occurring in the known types, whereby the power requirement is reduced; however, it also enables narrower applications Gyroscope and thus ensures material savings.

In the drawing, the new pump is shown in one embodiment.

Fig. I shows the inside view of the housing with impeller.

Fig. Z shows the interior of the housing without the impeller, Fig. 3 shows a section through the pump. The impeller a is mounted concentrically in the housing b and is tightly enclosed. In the housing and the cover closing the housing there are friction channels c in a special shape as well as inlet and outlet channels d and e. The inlet and outlet channels are connected to the suction and pressure ports / and g. The direction of the arrow shows the flow of the conveying means. The friction channels are interrupted at / t by a segment-like cutout. From L to h, the friction channel increases steadily in radial width and steadily decreases in axial depth. From h to i , the friction channel decreases again steadily in the radial width and increases again in the axial depth. Due to the wide design of the friction channels at h, the working blades of the impeller have the largest possible contact surface, which inevitably entrains the liquid particles and significantly increases the efficiency of the pump.

Claims (1)

PATENTANSP1tUC11; Friction pump with circulating auxiliary fluid and open impeller in a concentric housing, in the side walls of which friction or working channels are arranged, characterized in that the radial width of the friction channels c on the suction side (from L to h) increases steadily and the axial depth decreases steadily, but on the pressure side (from k to i) the radial width decreases again and the axial depth increases again steadily.