JP2020026790A - Three-split joint magnet repulsive scroll rotor with two grooves faced at 90 degrees - Google Patents

Abstract

To provide a configuration method of a scroll member capable of improving efficiency.SOLUTION: The end plate of a scroll member is divided into two or three parts and assembled. Also, a rare earth magnet is magnetized on the divided cross section of the end plate, and an effect of increasing the torque of the scroll rotor due to the repulsive force of a magnet is obtained.SELECTED DRAWING: Figure 2

Description

The above-mentioned scroll rotor, which cuts the gas pressure vortex groove toward the outer periphery of the scroll rotor joint, is divided into three parts, and the three pieces are assembled in sets of three, each having a magnet arranged at 90 degrees to provide torque increasing power. Generate regenerative effect

The current scroll roll is an engine motor, so it is driven directly by a motor, and the scroll rotor, that is, the amount of heat input and output work enthalpy due to the thermodynamics of adiabatic compression, is assisted by a mechanical magnet. Scroll rotor to assist

JP 2012-44517

(A) The thermodynamic adiabatic exponent entropy of the scroll rotor, that is, the enthalpy as the work of giving heat, is used to convert thermodynamics into mechanical dynamics. A 180-degree arc between the superior arc and the inferior arc is machined and cut on the end face of the cylinder by several steps. (C) Both joints have a gas pressure scroll groove and a three-part joint scroll which is repelled by the magnetizing force of the magnet. Rotor

Rotating scroll rotor cut into two-piece joint (1) Co-rotating scroll rotor put into two-piece joint (2)
(2) Gas pressure scroll groove cut on the side of the circular arc of the rotating scroll rotor of the two-piece joint (3) Gas pressure scroll cut on the side of the scroll rotor that goes around the two-piece joint Groove (4)
Divided cross section for magnetizing the cross section of the rotary scroll rotor cut in the three-piece joint (5) Co-rotating scroll rotor cut in the three-piece joint and rotating scroll together Scroll rotor composed of a rotor or a divided section (6) for magnetizing the divided joint section with magnets

The two-part and three-part joints have a 180-degree arc-shaped cylinder between the superior arc and the inferior arc. The cylindrical part is cut with several steps of wear. The two-part joint has scrolls on both end faces toward the circumference. The three-piece joint that cuts the gas pressure groove is magnetized on the divided section, and the revolving scroll rotor and the revolving scroll rotor are repelled by the magnet to improve the torque of both rotating heat. If the transfer enthalpy of the exponential entropy calorie appears, the Mollier diagram T. Power in the S diagram and representation in the overall diagram Difficult gas pressure assist and magnet magnetization assist both in the Mollier diagram T. The power calculation on the S, not the specified cycle 3 watts smaller than 3 Lefton, does not compensate for the problems of the basic enthalpy in thermodynamics solved by the electric power and the regenerative system etc. The effect of the refrigerator

Two-part joint scroll rotor perspective view Three-part joint scroll rotor perspective view

(A) Two-part joint scroll rotor (1) Revolving scroll rotor cut to the inner diameter of the joint (b) Two-part joint scroll rotor (2) Co-rotation cut to the inner diameter of the joint Scroll rotor (c) Two-piece joint revolving scroll rotor (3) Gas pressure guide scroll groove cut on the side of the rotor (d) Two-piece joint co-rotating scroll rotor (4) (3) Gas pressure guide scroll groove cut on the side of the rotor (e) Three-part joint (5) Rare earth magnets are magnetized on the three-divided divided cross section of the scroll rotor to repel the magnet. (F) Rare earth magnets are magnetized on the divided cross section of the scroll rotor (6) of the three-piece joint and the revolving scroll rotor to repel the magnet.

(1) Two-piece joint rotating scroll rotor (2) Two-piece joint rotating round scroll rotor (3) Two-piece joint rotating scroll rotor center cylinder upper discharge hole Lower gas pressure scroll groove (4) Two-piece joint Guide scroll scroll groove 5 three-part joint for revolving scroll rotor center upper discharge hole and negative pressure chamber 5 part joint revolving scroll rotor and magnetized repulsion type split rotor 6 three part joint Co-rolling scroll rotor and magnetized repulsion split rotor

Claims (2)

A two-piece joint rotating scroll rotor (1) and a two-piece joint scroll roller (2) are used. A cylinder is formed in the center of (1), and the scroll rotor is cut. (2) The split joint has a circular arc having a step difference of 180 degrees between the superior arc and the inferior arc in the center. (3) Gas pressure scroll groove on the lower surface of the rotary scroll rotor (4). A scroll groove is formed below the 180-degree circular arc of a few steps of the co-rotating scroll rotor (2). The same applies to (1) and (2) where the divided cross section is repelled by negative pressure. Also has a gas pressure scroll groove, and a set of two is used as a scroll rotor compressor. Three-piece joint revolving scroll rotor (5) Three-piece joint revolving scroll rotor (6) (5) (6) Both sets of three-piece scroll rotor are used as the upper joint of the three pieces. At the center radius of the lower joint, a 180 degree arc between the superior arc and the inferior arc is provided with a step of several millimeters, the divided section extends to the scroll rotor diameter, and large and small rare earth magnets are magnetized on the divided section. A 90-degree split opposing magnet scroll rotor compressor with the aim of improving the rotational torque due to the repulsion of

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