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Fluid control device for rotor in twin shaft

A rotor fluid and control device technology, applied in the direction of rotary piston pumps, rotary piston machines, liquid fuel engines, etc., can solve the problem of fluid motion and energy conversion, low efficiency in the field of fluid machinery, and large friction losses in fluid machinery etc. to achieve the effect of light weight, compact structure, wide range of compression ratio and expansion ratio

Inactive Publication Date: 2007-02-21
肖波
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] But until today, there are still problems in the field of fluid machinery such as low efficiency, polluting the environment, and poor versatility.
[0005] There are four main reasons affecting the efficiency of fluid machinery: first, the friction loss of fluid machinery is large; second, mechanical and fluid vibrations lose energy in the form of sound waves; third, they do not conform to the laws of fluid motion and energy conversion; fourth, they have poor versatility , that is, a product can only be used for one purpose, and can only be used under certain set conditions. In most cases, even the specific parameters cannot be changed.

Method used

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  • Fluid control device for rotor in twin shaft
  • Fluid control device for rotor in twin shaft
  • Fluid control device for rotor in twin shaft

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] Such as Figure 1-2 As shown, the biaxial rotor fluid control device has a boring cylinder 1, a boring cylinder shaft 5 is arranged at the center of the boring cylinder 1, end plates 6 are respectively arranged at the front and rear ends of the boring cylinder 1, and inside the boring cylinder 1 There are sweeping and boring slices 2, and the sweeping and boring slices 2 are distributed in the boring cylinder 1 in a star shape with the boring cylinder shaft 5 as the axis of rotation. The number of sweeping and boring slices is 1 to 30, which can be increased according to actual needs. This embodiment takes 6 as an example. The radius of curvature of the outer edge of the brooming piece 2 is equal to the inner edge of the boring cylinder 1, and the inner edge of the brooming piece 2 is equal to the outer edge of the boring cylinder shaft 5, so as to ensure the sealing. There is a rotary cylinder 3 inside the boring cylinder 1 , one end of the rotary cylinder 3 is drawn ...

Embodiment 2

[0032] Such as Figure 2-3As shown, the biaxial rotor fluid control device has a boring cylinder 1, a boring cylinder shaft 5 is arranged at the center of the boring cylinder 1, end plates 6 are respectively arranged at the front and rear ends of the boring cylinder 1, and inside the boring cylinder 1 There are sweeping and boring slices 2, and the sweeping and boring slices 2 are distributed in the boring cylinder 1 in a star shape with the boring cylinder shaft 5 as the axis of rotation. The number of sweeping and boring slices is 1 to 30, which can be increased according to actual needs. This embodiment takes 6 as an example. The radius of curvature of the outer edge of the brooming piece 2 is equal to the inner edge of the boring cylinder 1, and the inner edge of the brooming piece 2 is equal to the outer edge of the boring cylinder shaft 5, so as to ensure the sealing. There is a rotary cylinder 3 inside the boring cylinder 1 , one end of the rotary cylinder 3 is drawn o...

Embodiment 3

[0035] Such as figure 2 and Figure 4-5 As shown, the biaxial rotor fluid control device has a boring cylinder 1, a boring cylinder shaft 5 is arranged at the center of the boring cylinder 1, end plates 6 are respectively arranged at the front and rear ends of the boring cylinder 1, and inside the boring cylinder 1 There are sweeping and boring slices 2, and the sweeping and boring slices 2 are distributed in the boring cylinder 1 in a star shape with the boring cylinder shaft 5 as the axis of rotation. The number of sweeping and boring slices is 1 to 30, which can be increased according to actual needs. This embodiment takes 6 as an example. The radius of curvature of the outer edge of the brooming piece 2 is equal to the inner edge of the boring cylinder 1, and the inner edge of the brooming piece 2 is equal to the outer edge of the boring cylinder shaft 5, so as to ensure the sealing. There is a rotary cylinder 3 inside the boring cylinder 1 , one end of the rotary cylin...

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Abstract

A fluid control device with double-shaft rotator is prepared as arranging cylinder in said device and setting cylinder shaft, end plate, blade and rotary drum with longitudinal seams in cylinder; setting a pair of active folder between each blade and longitudinal seam and forming double-shaft rotator by rotary drum, active folder and blade; dividing cylinder to be four operation regions by one double-shaft rotator and arranging four said operation region symmetrically at two sides of central line to form expansion region and compression region; and setting inlet and outlet on cylinder.

Description

technical field [0001] The invention belongs to fluid machinery, in particular to a biaxial rotor fluid control device. Background technique [0002] Fluid machinery is widely used in various industries of the national economy. In industry, agriculture, transportation, other industries and daily life, there are all kinds of fluid machinery, which are indispensable equipment. Fluid machinery uses fluid as the working medium, and can be roughly divided into three categories according to functions: the first category is a machine that uses the fluid field or the transfer and change law of thermodynamic state to perform function-energy conversion or inverse conversion, such as the process of power consumption boosting Pumps, compressors, etc. characterized by fluid pressure or simultaneous expansion of work process, hydraulic turbines, internal combustion engines, steam turbines, gas turbines, various high and low temperature gas turbo expanders, etc.; the second category is thr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F04C2/344F04C18/344
Inventor 肖波
Owner 肖波