SU1629609A1 - Adjustable gear pump - Google Patents

Abstract

The invention relates to the field of mechanical engineering, in particular to adjustable gear pumps, and can be used in gear pumps of petrochemical equipment for loading and pumping oil products, in gear pumps of cooling systems and lubricating machines, etc. The purpose of the invention is to improve the quality of the implementation of technological processes by stabilizing the frequency of rotation of the drive gear while changing the frequency of rotation of the drive shaft. Adjustable gear pump includes a housing 1, in cylindrical bores 2 of which are placed with the formation of suction and pressure cavities (not shown) helical gears 3 and slave 4 gears mounted on the driving 5 and driven 6 shafts, made in the form of a spring 7 and an adjusting screw 8, an adjustment mechanism rigidly coupled to the drive shaft 5 is a friction disk 9. The drive gear 3 is mounted on the drive shaft 5 with the possibility of angular movement. On the side surface 10 of the drive gear 3 there is a ring groove 11. The side surface 12 of the drive gear 3 is mated with a friction disk 9, and spring 7 is on one side with ring groove 11 of the drive gear 3, and on the other, with an adjusting screw 8. Pump can be provided with an additional friction disk (not shown) installed between the main friction disk 9 and the side surface 12 of the pinion gear 3. 1 sludge. in. «Ј OT / W oo o

Description

The invention relates to the field of mechanical engineering, in particular to adjustable gear pumps.

The purpose of the invention is to increase reliability by stabilizing the rotational speed of the drive gear when changing the rotational speed of the drive shaft.

The drawing shows an adjustable gear pump, a longitudinal section.

An adjustable gear pump contains a housing 1, in cylindrical bores 2 of which are placed with the formation of a suction and pressure cavity (not shown) helical gears 3 and driven 4 gears mounted on the driving 5 and driven 6 shafts, made in the form of a spring 7 and an adjusting screw 8, an adjustment mechanism rigidly coupled to the drive shaft 5 of the friction disk 9, while the gear pinion 3 is mounted on the drive shaft 5 with the possibility of angular motion; on the side surface 10 of the pinion gear 3 an annular machining is performed 11, the side surface 12 of the driving gear 3 is mated to the friction disk 9, and the spring 7 is mated on one side with the ring groove 11 of the driving gear 3, and on the other side with the adjusting screw 8; in addition, the pump can be provided with an additional friction disk (not shown) mounted between the main friction disk 9 and the side surface 12 of the pinion gear 3.

Adjustable gear pump works as follows.

When the gears 3 and 4 rotate, the working fluid is caught by the teeth of the gears 3 and 4 and in the interdental cavities is transferred from the suction cavity to the discharge cavity. At the same time, axial force acts on the drive gear 3 from the side of the pumped liquid and driven gear 4 against the force generated by the spring 7. With increasing frequency of rotation of the pinion gear 3, the axial force increases and the pressing force of the pinion 3 and the friction disk 9 decreases and the leading gear 3 begins to slip relative to the friction disk 9. This leads to the fact that there is a dynamic equilibrium when a certain value is applied to a certain pressing force of the spring 7 on the pump performance. As the force of the spring 7 is increased, the rotational speed of the pinion gear 3 and the pump capacity will increase, since the axial force pressing the pinion gear 3 is proportional to the pump performance and a greater pull force. Thus, changing the magnitude of the force of pressing the spring 7 using the adjusting screw 8 provides a change in performance from zero to maximum.

Claims (2)

Invention Formula 1, Adjustable gear pump, comprising a housing, in cylindrical bores of which are placed to form a suction cavity and pumping helical gears and driven gears mounted on the driving and driven shafts, and an adjustment mechanism that is different in order to increase reliability by stabilizing rotational speed of the drive gear when the rotational speed of the drive shaft changes on the side surface of the drive gear, an annular groove is made, and the adjustment mechanism is made in the form of a spring and an adjusting screw, with one side surface of the pinion gear associated with the friction disk, and the spring on one side is coupled with the ring groove, and on the other hand, with an adjusting screw. 2. A pump according to claim 1, characterized in that it is provided with an additional friction disk mounted between the main friction disk and the side surface of the pinion gear.