SU476393A1 - Hydrodynamic transmission - Google Patents

Description

one

The invention relates to the field of power engineering, in particular, to the production of hydrodynamic leredach.

Hydrodynamic transmissions with non-axial drive and driven shafts are known, comprising a pumping wheel and a turbine wheel, reactors and a device for communicating the pump and turbine channel channels.

However, in the well-known non-passages, the device for communicating the pump and turbine wheel channels is made in the form of two separate siiral diffusers, increasing the dimensions of the transmission and the path of movement of the working fluid, which reduces the efficiency of the transmission.

The purpose of the invention is to reduce the dimensions of the transmission and increase its efficiency by modifying the shape of the channels of the working cavity.

In the proposed construction, this is achieved by the fact that the device for communicating the channels of the pump and turbine wheels is made in the form of a non-one-movement curved knee, facing to the pump and turbine wheels with its ends. The knee has an annular cavity that connects the output channels of the impeller to the inlet channels of the turbine wheel, and a central section that connects the output channels of the turbine wheel to the inlet channels of the impeller, and the reactors are fixed at the ends of the elbow.

FIG. Figures 1 and 2 show hydrodynamic gears with non-sleet shaft (two versions). In the ipochipikovoy support 1 iKOpnyca 2, the drive shaft 3 is located with the pump wheel 4, and in the bearing support 5 of the housing 6, the driven shaft 7 is non-axially located with the turbine wheel 8. Between bodies 2 and 6 there is a fixed curvilinear knee 9,

where the annular cavity 10 connects the output channels of the impeller 4 to the input channels of the turbine wheel 8, and the central cavity 11 connects the output channels of the turbine wheel 8 to the input channels of the impeller 4. A reactor 12 is located at the exit of the impeller 4 , before the entrance of the liquid into the turbine wheel is located the reactor 13, and for the exit from the turbine wheel-reactor 14.

The hydrodynamic transmission can be performed with a non-through driven shaft 7 of a turbine wheel 8 (as shown in Fig. 1) or with a through driven shaft 7 of a turbine wheel 8 (Fig. 2), in which both ends

coming out of the case. In the second case, the wheel

9, and has a hole 15 for the passage through it of one of the ends of the shaft 7 and an annular jumper 16, which separates the cavity.

10 and 11 of the tribe 9.

With the specified versions, shafts 3 and 7 can change their functions. So on

shaft 3. a turbine wheel can be mounted, and it will become a driven shaft, and a pump wheel can be mounted on shaft 7, and it will become a drive shaft. The locations of the factors change accordingly.

Hydraulic transmission works as follows.

The drive shaft 3 with the pump elbow 4 rotates from the engine (not shown), with this liquid note moving from the axis of the impeller wheel to its periphery is reported. Passing through the pump wheel 4, the fluid has a spin obtained from the pump. The reactor 12 spins up the flow of liquid gas and directs it to the annular cavity 10 of the elbow 9. Due to the movement of the fluid along the generatrices of the annular cavity, the hydraulic losses are reduced without rotation. The ring hole 10 also obscures the rotation of the fluid flow and its movement from the impeller 4 to the non-axially located turbine wheel 8. Further, a note of fluid passing through the reactor 13, but not necessary for the turbine wheel 8 the turbine wheel from the periphery to the center, tells it and the shaft 7 the necessary rotation. After the turbine wheel 8, a tray of fluid passes through the reactor 14, which directs it to the inside of the central cavity 11 of the elbow 9, to the entrance to the non-axially located pumping wheel, and the cycle repeats. Central nolost 11 knees 9

It provides the rotation of the fluid flow and its movement from the turbine wheel 8 to the pump wheel 4 with minimal hydraulic losses.

In the design of fit. 2, the fluid flow from the wheel 4 to the turbine wheel 8 bends around the jumper 16 without noticeable note ries, since the cross section of this jumper is small compared to the spring section of the annular floor 10, and also due to the possibility of low speeds fluid in the cavity 10, due to the easily achievable large sections of this cavity.

Subject invention

Hydrodynamic transmission with misaligned drive and large home shafts containing pumping, turbo wheels, reactors and a device for communicating pump and canal channels and 1 wheels, characterized in that, in order to reduce gabar1gg and increase the economy of non-transmission, this device is designed as an immobile curvilinear knee facing to pump and turbine | Wheels, with an annular cavity in the knee connecting the output channels of the impeller with the input channels of the turbine wheel, and ytralna cavity soedip vy.hodnye guide channels of the turbine wheel with the input channels of the impeller and the reactors are fixed at the ends of said knee.

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