EP0024024A1 - Selflubricating gear pump - Google Patents

Abstract

The invention relates to a gear pump with a self-lubricating device, in which channels (12, 13, 14, 16, 17, 18, 19) for supplying and re-discharging a partial flow of the conveyed medium to and from the bearings of the pump are provided. Sufficiently large lubrication channels should be used while avoiding a leakage rate of the gear pump caused thereby. This is achieved in that conveying means (10) for the transport of the lubricants are arranged in the channels in the shafts of the pump.

Description

The present invention relates to a gear pump with a self-lubricating device, in which lubrication channels connect the bearings of the gear pump to the discharge-side discharge opening of the pump.

Gear pumps are often used for the transport and dosing of viscous media, e.g. High polymer melting used. Lubrication of the bearings poses a particular problem. In order to avoid contamination of the medium to be pumped, no conventional lubricants such as oils, greases or graphite can be used here; lubrication must be carried out with the transported medium itself.

In known gear pumps, this lubrication of the bearings by the pumped medium takes place in such a way that a partial flow of the pumped medium is guided from the pressure side of the pump via lubrication channels to the bearings and back to the suction side. Such a gear pump is known from Japanese laid-open specification 75 010 402. This type of lubrication means a deliberately caused internal leakage of the pump, whereby the pump performance is reduced by the leakage thus generated.

The dimensioning of these lubrication channels is determined by two conflicting requirements. On the one hand, it must be ensured that melt flows continuously through the lubrication channels. Any hindrance to the melt flow leads to longer dwell times in the lubrication channel system, which promotes thermal degradation. The deposits of decomposition products create further friction losses for the flow until, due to this self-reinforcing effect, a total blockage of the lubrication channels occurs, which as a rule jams affected camp. This clogging of the lubrication channels can be caused by solid particles such as matting agents. or pigments are also triggered. Larger lubrication channels would avoid this clogging, but lead to an inadmissible increase in the leak rate, which is particularly disruptive for gear pumps with a high delivery rate and high pressure.

The object of the present invention is therefore to provide a gear pump with a self-lubricating device in which sufficiently large lubrication channels can be used while avoiding a leak rate of the gear pump caused thereby.

The object is achieved in that conveying means for the transport of the lubricants in the channels are arranged in the shafts of the pump,

These funds are preferably arranged coaxially in the shafts of the gear pump. Gear pumps or screw conveyors can be arranged in the shafts as conveying means. The funds are arranged so that they can move relative to the shafts of the gear pump.

• Figur 1 zeigt die erfindungsgemäße Zahnradpumpe mit einer Förderschnecke als Fördermittel für die Schmiermittel zur Zwangsschmierung der Lagerbuchsen der Pumpe geschnitten,
• Figur 2 zeigt den Schnitt II-II der Figur 1;
• Figur 3 die Verwendung einer Zahnradpumpe als Fördermittel für die Schmiermittel;
• Figur 4 die Einzelheit "Z" der Figur 3;
• Figur 5 die Ansicht der Einzelheit "Z".

The invention is explained in more detail below with reference to the figures, which only show examples.

• FIG. 1 shows the gear pump according to the invention with a screw conveyor as a conveying means for the lubricants for the forced lubrication of the bearing bushes of the pump,
• Figure 2 shows the section II-II of Figure 1;
• Figure 3 shows the use of a gear pump as a funding for the lubricant;
• Figure 4 shows the detail "Z" of Figure 3;
• Figure 5 shows the view of the detail "Z".

The funding takes over the lubricant, a partial flow of the melt, which reaches the bearing bushes from the discharge side of the gear pump via one or more lubrication channels and conveys it through bores in the shafts in the direction of the opposite bearing bushes. The melt reaches the discharge side of the pump again through lubrication channels in these bearing bushes. The conveying means only need to build up a pressure which is sufficient for the transport of the lubricant through the lubrication channels. For the partial melt flow for bearing lubrication, large lubrication channels can be selected in the device according to the invention which do not become clogged due to deposits. The forced conveyance also prevents excessive dwell times of the melt in the lubrication channels, which could lead to thermal degradation of the melt.

In the gear pump according to FIG. 1, the medium to be delivered flows to the pump via the suction side 1 and is conveyed to the pressure side 9 by rotating two intermeshing gear wheels 2 in opposite directions. The gearwheel shafts 3, 3a are mounted in bushes 4, 4a, which seal the end of the gearwheels. A shaft journal 5 is guided via sealing devices known per se (not shown) from the otherwise closed pump housing 6 to the drive unit (not shown). In each shaft, a screw conveyor 10 is accommodated in a concentric bore, which is connected to the front face 8 of the housing by means of a pin 11 and secured against rotation. If you now start the pump, the shaft turns around the stationary screw and the system works like an extruder. The partial flow of the medium used for lubrication now flows from the pressure side 9 via the channels 12 in the front bearing bushes 4a, the channels 13 (lubrication grooves for the bearing bushes 4a) and the channels 14 in the housing front side 8 to the suction side of the screw conveyor 10. Through the screws the medium is conveyed to the opposite bearing and flows through channel 16 or the bore 17 and the ring channel 7, the channels 18 (lubrication grooves for the bearing bushes 4) and the channels 19 to the pressure side 9 of the pump.

The same principle is used in the pump shown in FIGS. 3 to 5, but here it serves to convey the lubricant through the shafts, instead of gear pumps housed in the shafts instead of screws. These pumps themselves rotate with the shafts, their drive pins 15 are held in the end wall 8. This funding consists of the pinion 15 held by the gear 22 and the gears 20 and 21 running around this gear 22. The lubricant passes from the pressure side 9 of the pump via the channels 12, 13, 14 and 24 to the funding (gear pump) and there through the channels 16 or the bores 17 and 18 and 19 via the bearing bush 4 back to the pressure side 9 of the gear pump.

In these exemplary embodiments of the device according to the invention, the partial flow of the melt used for lubrication is removed from the pressure side of the gear pump and also guided there again. In the context of the invention, however, it is also possible to remove the partial flow of the transported medium serving the lubrication on the suction side of the pump and to return it there, or to convey the partial flow in or against the direction of the main melt flow between the suction and pressure side.

Claims (9)

1. Gear pump with self-lubrication device, in the channels for supplying and discharging a partial flow of the pumped medium to and from the bearings of the pump are present, characterized in that in the shafts of the pump, means for transporting the partial stream are arranged. 2. Gear pump according to claim 1, characterized in that supply and discharge channels connect the pressure side of the gear pump with the bearings. 3. Gear pump according to claim 1, characterized in that supply and discharge channels connect the suction side of the gear pump with the bearing. 4. Gear pump according to claim 1, characterized in that the supply channels connect the pressure side and the discharge channels the suction side of the gear pump with the bearing. 5. Gear pump according to claim 1, characterized in that the supply channels connect the suction side and the discharge channels the pressure side of the gear pump with the bearing. 6. Gear pump according to claim 1, characterized in that the conveying means are arranged coaxially in the shafts of the gear pump. 7. Gear pump according to claim 1, characterized in that gear pumps are arranged as conveying means. 8. Gear pump according to claim 1, characterized in that screw conveyors are arranged as the funding. - 9. Gear pump according to claim 1, characterized in that the conveying means are arranged movable relative to their shafts.

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