BG155Y1 - Hydraulic transmitter - Google Patents

Abstract

The hydraulic transmitter is used in hydrodynamic transmissions. It has differential effect and improved interaction between the fluid fluxes in it. In consists of a twin pump wheel (1) and two turbine wheels (2 & 3), symetrically positioned, having recirculation grooves (4, 5 & 6) in the form of screw lines (7). The recirculation grooves for each of the twin screw lines (7) intersect in the middle part of the pump wheel (1) forming a common recirculation sector (8), and the turbine wheels (2 & 3) are fitted to separate outlet shafts (9 & 10). (11) 156

Description

Technical field

The utility model relates to a hydraulic transmitter intended for use in hydrodynamic transmissions.

BACKGROUND OF THE INVENTION

A hydraulic transmitter is known, consisting of a double pump pump connecting wheel to an inlet shaft and two turbine wheels symmetrically arranged thereto, connected to each other and to an output shaft. Reactor wheels are located between the pump and the turbine wheels, which are connected to the transmitter housing by means of idling couplings. The circulation channels in the impeller of the transmitter have the form of twin screw lines that do not intersect / 1 /.

A disadvantage of the known hydraulic transmitter is the lack of differential action and interaction between fluid flows in the twin impeller.

The task of the utility model is to create a differential-acting hydraulic transmitter with increased fluid flow interaction in its circulation channels.

The technical nature of the utility model

The task is solved with a hydraulic transmitter, which includes a twin pump wheel and two symmetrically arranged turbine wheels, the circulation channels of the transmitter being in the form of twin screw lines. According to a useful model, the circulation channels of each twin screw line intersect in the middle of the pump wheel, forming a common circulation section, and the turbine wheels are connected to separate output shafts.

An advantage of the utility model is the differential action and the increased interaction of fluid flows in its circulation channels.

Description of the attached figures

Figure 1 is a longitudinal sectional view of the hydraulic transmitter.

Exemplary embodiments of the utility model

The hydraulic transmitter consists of a twin pump wheel 1 and two symmetrically arranged turbine wheels 2 and 3 with circulating ducts 4, 5 and 6 respectively in the form of twin screw lines 7. The circulating channels of each twin screw line 7 intersect in the middle of the pump wheel 1, forming a common circulation section 8, and the turbine wheels 2 and 3 are attached to separate output shafts 9 and 10, respectively.

The intersecting circulation channels in the common section 8 lie in one plane, while in another exemplary embodiment they lie in different planes - partially or completely, tangent to each other.

In another embodiment, the twin wheel is designed as a turbine and the other two as pumps. It is possible for the twin wheel and one of the others to be designed as turbine wheels and the third one to be pumped.

Using the utility model

The rotation of the pump wheel 1 accelerates the fluid in it, which attacks the blades of the turbine wheels 2 and 3, creating a moment of their shafts 9 and 10. The fluid jets interact in the common section 8 of the pump wheel 1. In different modes of operation of the pump wheel 1. turbine wheels 2 and 3 redistribute the circulating fluid in the channels 4 of the pump wheel 1, forming a common double-circular flow in addition to the two circular flows through the turbine wheels 2 and 3.

When mounting reactor wheels between pump 1 and turbine 2 and 3 wheels, the hydraulic transmitter can also operate in transformation mode.

Claims (1)

Claims A hydraulic transmitter comprising a twin pump wheel and two circular ducts in the form of twin screws symmetrically arranged therewith, characterized in that the circulating ducts of each twin screw line (7) intersect in the middle of the pump 2 wheel (1) forming a common circulation section (8) therein, and the turbine wheels (2 and 3) are fixed to separate output shafts (9 and 10).