SU547125A1 - Positive-displacement pump - Google Patents

Abstract

VOLUME PUMP containing a stationary cylinder block with axially located in it piston groups, interacting with c 1 2 J5 swiveling inclined disk, provided on the plane facing the piston groups with crescent-shaped distribution window for communicating with the internal cavity of the pump with working chambers during the last suction stroke, characterized in that, in order to improve the quality of filling of the working chambers, the crescent-shaped window is provided with at least one jumper not facing the plane of distribution with a surface inclined relative to the plane of rotation of the disk, the decreasing direction of the cross section of the jumper coinciding with the direction of rotation of the disk. / 3/7 7 J • /,././ U.i19 (Ls <? Game ../ JV

Description

The invention relates to a pump-construction industry, in particular, to an axial piston pump with an inclined disk. A volumetric pump is known comprising a stationary cylinder block with piston groups axially arranged in it and interacting with a rotating inclined disk, provided on the plane facing the piston groups, with a crescent-shaped distribution window for communication pump cavities with working chambers when performing the last suction stroke. The disadvantage of such a pump is that when operating in self-priming mode without creating overpressure in the internal cavity of the body, certain restrictions are imposed on the speed of rotation of the drive shaft due to the underfilling of the working chambers with liquid when the pump performs the suction stroke, which significantly reduces the pump volumetric flow . The purpose of the invention is to improve the quality of filling of the working chambers during the suction stroke. This is achieved by the fact that the crescent window is provided with at least one jumper not facing the distribution plane with a surface inclined relative to the plane of rotation of the disk, the reduction direction of the cross section of the jumper coinciding with the direction of rotation of the disk. I Figure 1 shows an explosive volumetric lasos, longitudinal section; figure 2 is an inclined disk, view from the side of the cylinder block; in FIG. 3, view A in FIG. 2; figure 4 - section bb in figure 2. The volumetric pump includes a housing 1 where a stationary block of cylinders 2 with piston groups 3 axially arranged in it consisting of pistons 3 and shoes 4 are placed. The shoes 4 of piston groups interact with rotating inclined disks 5 fixed on the drive shaft 6 installed in bearings 7 and 8 placed in bearings 9 and 10 attached to housing 1. Each inclined disk 5 is provided on a plane facing the piston groups with a crescent-shaped distribution window 11 for communicating the internal cavity 12 of the pump with workers amers 13 at the last clock vtolnenii .vsasyvani .Serpovidnoe box 11 is provided with at least one crosspiece 14 without exiting in the distribution plane. The jumper 14 has a surface 15 inclined relative to the plane of rotation of the disk. The direction of decreasing the cross section of the jumper 14 coincides with the direction of rotation of the disk 5. Each working chamber 13 is provided with a discharge valve 16, the output of which is connected to a discharge manifold 17 provided with an outlet 18. The working fluid into the inner The cavity 12 of the pump is fed through the opening 19. The pump operates as follows. When the drive shaft 6 is rotated with inclined disks 5 rigidly fixed on it, the piston groups interacting with the disks 5 reciprocate, thereby providing a consistent increase and decrease in the volume of the working chambers 13, i.e. the pump performs suction and discharge strokes. During the suction stroke, the filling of the working chambers 13 with fluid from the internal cavity 12 of the pump occurs due to the negative pressure that occurs when their volume increases. Due to the vacuum in the working chambers 13, a pressure differential is created between the internal cavity 12 of the pump and the said chambers 13 and the working fluid under the action of this pressure drop from the cavity 12 through the crescent-shaped distribution window 11 and the channels in the shoes 4 and pistons x 3 , fill the last. Jumpers 14 implemented in the crescent-shaped distribution window 11 with the surface 15 inclined relative to the plane of rotation of the disk 5 contribute to the dynamic pressure of the working fluid at the entrance to the working chambers 13, which leads to an additional increase in the pressure difference between the internal cavity of the pump 12 and the working chambers 13 and, therefore, to better fill them. When the volume of the working chambers 13 (discharge stroke) is reduced, liquid from them is displaced through the corresponding injection valves 16 into the discharge manifold 17 and further through the outlet 18 is supplied to the consumer547 125 Improving the fill quality of the working chambers allows increasing the speed of rotation of the drive shaft without creating excessive pressure in the internal cavity of the pump. bida

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Claims (1)

VOLUME PUMP containing a fixed cylinder block with axially arranged piston groups interacting with the surface of the disk rotation bones, and the direction of reduction of the cross section of the bridge coincides with the direction of rotation 15 '13 1 54712