SU1507990A1 - Variable partial turbine - Google Patents

Abstract

The invention relates to turbine construction, in particular, to pipe drives of auxiliary mechanisms, as well as manual pneumatic machines, and makes it possible to increase their efficiency in partial modes and simplify the design. In the housing 1 with the inlet channel 2, a nozzle device 3 with nozzles 4 and an impeller 5 are installed. The nozzles 4 are located on a part (arc) 6 of circumference 7 of the nozzle device 3, and the nozzle device 3 is made rotatable with the help of a lever 8. 2 in the output section (outlet) 10 is equal to the length of the part 6 of the circumference 7 of the nozzle apparatus 3, on which the nozzles 4 are located. One working substance per turbine without changing its parameters in front of and behind the nozzle device 3 reduces power without unproductive consumption of the working substance. 3 il.

Description

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The invention relates to turbine construction, in particular to adjustable partial turbines, preferably small-sized ones.

The purpose of the invention is to increase the efficiency in partial modes and simplify the design.

FIG. 1 given adjustable partial turbine in the position “Full load, longitudinal section; in fig. 2 is a section A-A in FIG. one; in fig. 3 - turbine in position “Partial load, cross section.

An adjustable partial turbine includes a housing 1 with an inlet channel 2, a nozzle 3 with nozzles 4 and an impeller 5. A nozzle 3 is installed coaxially with the impeller 5 in the housing 1. The nozzles 4 are located on a part (arc) 6 of the nozzle 7 3. The nozzle device 3 is made rotatable, for example, using a lever 8, and the circumferential size 9 of the inlet channel 2 in the output section (output) 10 is equal to the length of part 6 of the circumference 7 of the nozzle device 3, on which the nozzles 4 are located.

Adjustable partial turbine operates as follows.

In the "Full load" position, the working fluid is supplied through the inlet channel 2 of the housing 1 to the nozzles 4 of the nozzle apparatus 3. Then, through the nozzles 4, the working fluid flows to the impeller 5 and causes it to rotate.

If it is necessary to reduce the power of the turbine (position "partial load), the lever 8 rotates the nozzle apparatus 3 around its axis at an angle. In this part of the nozzles 4 nozzle apparatus 3 is covered by the housing I, the output

when turning nozzle apparatus 3 from the zone of the inlet channel 2.

This reduces the flow rate of the working substance through the turbine without changing its parameters in front of and behind the nozzle device 3. As a result, the consumption of the working substance decreases, the power of the turbine decreases. But since in this case there is no change in the parameters of the working substance, there is practically no non-productive consumption of the latter, and, consequently, the efficiency of the turbine compared to throttle control, will be higher.

In the position “Stop the nozzle apparatus 3 is turned in such a way that all the nozzles 4 of the nozzle apparatus 3 are completely blocked. The working substance does not enter the turbine and the turbine stops.

Such an adjustable partial turbine will provide all the listed modes in the event that the degree of its partialness is less than or equal to 50%.

Claims (1)

Invention Formula The adjustable partial turbine is predominantly small in size, containing a nozzle device installed in the housing with nozzles placed on a part of the circumference, an impeller and an inlet channel communicated with the nozzle device, characterized in that, in order to improve efficiency on partial modes and simplify the design, to allow the apparatus is mounted rotatably in the circumferential direction relative to the impeller, and the circumferential size of the inlet duct at the outlet is equal to the length of the said part of the circle. (rigging YU 9uz.7