RU2193689C2 - Two-rotor vacuum pump - Google Patents

Abstract

FIELD: agricultural production. SUBSTANCE: pump has casing, end covers, driving rotor and driven rotor, suction and pressure windows. Drive rotor has cylindrical surface with at least two teeth. Driven rotor has cylindrical surface and slot of involute profile. Teeth on cylindrical surface of drive rotor are made trapezoidal, with angle of inclination of 20-30 deg. Pump of such construction is used in milking units. EFFECT: simplified construction and increased efficiency of vacuum apparatus for milking unit. 2 dwg

Description

 The invention relates to vacuum pumps used in milking plants in agricultural production.

 A two-rotor vacuum pump is known in which the rotor has teeth and the second rotor has troughs, while the teeth and troughs have a curved surface (SU 392 272 A, 12/10/1973, F 04 C 25/02).

 However, the manufacture of a single-tooth rotor, in which the tooth has a curved surface, is of considerable technological complexity, which does not provide the necessary dimensional accuracy. In addition, at the rotor with one tooth, the gas leakage through the radial clearance formed between the tooth protrusion and the radial surface of the housing is increased.

 Known two-rotor pump, consisting of a housing, end caps, leading and driven rotors, suction and discharge windows, while the driving rotor has a cylindrical surface with two or more teeth, and the driven rotor has a cylindrical surface and a cavity with an evolute profile (GB 2 133 473 A, 07.25.1984, F 04 C 2/20). This pump is accepted as the closest analogue.

 The disadvantage of this pump is also a significant technological complexity.

 The objective of the invention is to remedy the above disadvantages.

The specified task in the implementation of the invention is achieved by the fact that in a two-rotor vacuum pump containing a housing, end caps, drive and driven rotors, suction and discharge windows, while the drive rotor has a cylindrical surface with two or more teeth, and the driven rotor has a cylindrical surface and a cavity with an involute profile, the teeth of the driving rotor are made of a trapezoidal shape with an inclination angle of 20-30 ^o .

 1 shows a pump.

 Figure 2 - gearing.

The two-rotor vacuum pump (figure 1, 2) consists of a housing 1 with end caps, a leading 2 and a driven 3 rotors, a suction 4 and a discharge 5 windows. The drive is carried out from an electric motor through a synchronization mechanism. The leading rotor has a cylindrical surface and two or more teeth made in the form of a trapezoid with an inclination angle of 20-30 ^o . The driven rotor also has a cylindrical surface with cavities made along an involute profile.

 The conjugation of the trapezoidal profile of the tooth (tooth rack, which when cutting the gear wheel forms an involute profile) with a cylindrical surface forms a depression in it, in which both sides have an involute profile.

 The principle of operation of the pump is as follows.

 When the rotors rotate in the indicated direction in the suction cavity B, an expansion of the volume occurs, as a result of which a fresh portion of gas is sucked in. With a further rotation of the rotors, the gas enters the discharge cavity H, where as a result of a decrease in volume, internal compression occurs at the moment when the discharge window 5 is closed, and then it is forced out through the discharge window during the period when the discharge window is open.

 The use of mating profiles (a trapezoidal tooth with an involute cavity profile) provides a minimum clearance in this engagement and a minimum harmful volume of the cavity.

Claims (1)

Two-rotor vacuum pump containing a housing, end caps, driving and driven rotors, suction and discharge windows, while the driving rotor has a cylindrical surface with two or more teeth, and the driven rotor has a cylindrical surface and a cavity with an involute profile, characterized in that the teeth the leading rotor is made trapezoidal with an inclination angle of 20 - 30 ^o .

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