SU1224442A2 - Positive-displacement pump - Google Patents

Description

The invention relates to hydraulic machine building, in particular to positive displacement pumps, can be used in various industries for pumping fluids, and is in addition to the main auth. St. No. 1178937.

The purpose of the invention is to improve the dynamic performance by reducing the shock loads on the tape and reducing their efforts in the last stretch.

The drawing schematically shows a volumetric pump, obsh, i view.

The volumetric pump comprises a housing 1 with a working 2 cavity, in which two synchronized lamellar rotors 3 and 4 with rounded edges, covered by a closed tape 5 made at least partially of a flexible material and equipped with at least 6, are installed with the possibility of turning around parallel axes. , which entered the response cavities 7 on the rotors 3 and 4. The protrusions 6 of the closed tape 5 are made in the form of rigid plates 8 connected to each other by flexible sections 9 of the closed tape 5. The length of the rigid plates 8 is equal to the length of the flat surfaces of the plates of the mouth 3 and 4. The length of the flexible sections 9 of the tape 5 is equal to the length of the rounded edges of the rotors 3 and 4, and the distance between the axes of the rods, the rotors 3 and 4 is equal to the sum of the lengths of the rigid plate 8 and the flexible section 9 of the tape 5, and the rigid plates 8 made in the form of plates on the surfaces of the flexible tape 5. The profiles of the parts 10 and 11 of the lamellar rotors 3 and 4, located on opposite sides of its transverse axis of symmetry, are made of trapezoidal, and the rigid plates 8 of the belt 5 are bent in the plane of the transverse axis of symmetry lamellar rotors 3 and 4. Pump s an other inside the pump chamber 12.

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The described volumetric pump works as follows.

When the rotor 3 rotates clockwise, movement through the belt 5 is transmitted to the rotor 4, while the rigid plates 8 of the belt 5 prevent the latter from radially rounding the tops of the rotor teeth 3 and 4. When the angular position of the rotors 3 and 4 changes, the volume of the parallelepiped changes formed by the tape 5 between the end walls of the housing 1, i.e., the change in the volume of the internal pump chamber 12. Accordingly, in the counterphase there is a change in the volume of the working cavity 2. At all positions of the rotors 3 and 4, except for "dead wise (shown in the drawing), the rigid plates 8 of the tape 5 fit snugly to the depressions 7 on the surfaces of the rotors 3 and 4, having a trapezoidal profile, which is ensured by the possibility of bending the rigid plates 8 on the bases of the rotors 3 and 4, i.e. hitting half the length of the rigid plates 8 provides an improvement in the dynamic characteristics of the pump.

When "the dead position of the rotors 3 and 4 shown in the drawing, when the volume of the internal pump chamber 12 is minimal, the pressure of the fluid in the chamber 12 squeezes the half of the rigid plates 8 of the tape 5 from the cavities 7 of the surfaces of the rotors 3 and 4 close to the pump’s central part, while the half of the rigid plates 8 that are distant from the center of the tape 5 remain in position pressed against the cavities 7 of the surface of the rotors 3 and 4. This eliminates the uncertainty in the position of the rotor 4 with further rotation, and also provides a smoother transfer of the rotors 3 and 4 from one rigid plate 8 of the belt 5 to the other and reduces the tensile forces in the belt 5.

Claims (2)

VOLUME PUMP by ed. St. No. 1178937, characterized in that, in order to improve the dynamic characteristics by reducing the shock loads on the tape and reducing the last tensile forces, the profiles of the parts of the rotor rotor located on different sides from its transverse axis of symmetry are made trapezoidal, and the hard plate of the tape is made with the possibility of bending in the plane of the transverse axis of symmetry of the rotor blade. 2 1