KR100220811B1 - A fluid compressor - Google Patents

Abstract

The present invention has a problem that the conventional fluid compressor has a problem that the operation structure is complicated due to the synchronous rotation of the cylinder and the rotating body, the production cost is increased and the number of rotating objects is large, the noise is generated, both ends are supported in the sealed case and the interior is It is formed of a cylindrical cavity and has a helical groove formed on the inner circumferential surface of which the pitch becomes smaller from the suction side to the discharge side. A cylindrical outer rotor having a predetermined thickness turning the inner circumference of the fixture, and an inner rotator that is fitted on the inner circumferential surface of the outer rotor and rotates about the same central axis as the fixture, turning inside the outer rotor; It is inserted into the spiral groove of the fixture so that it can be retracted radially so that the inner circumferential surface of the fixture and the outer rotor Consists of a spiral blade that partitions the main surface into a plurality of compression chambers, and a drive means for turning the inner rotating body, so that only the inner rotating body fitted to the outer rotating body by the driving means to swing, the vibration and noise is reduced, the structure is The present invention relates to a fluid compressor that is simple and inexpensively manufactured.

Description

Fluid compressor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fluid compressor for compressing and discharging a fluid, and more particularly, to allow the inner and outer rotors to be pivotable inside the fixture to move the fluid along a compression chamber formed between the fixture and the outer rotor. It relates to a fluid compressor that can be compressed while being.

The fluid compressor according to the prior art has a cylinder (1) rotatably installed in the casing (9), a rotating body (2) installed eccentrically in the cylinder (1), and the rotor as shown in Figs. A blade (5) installed to be able to move forward and backward in the radial direction in the whole (2), a rotor (3) fixedly fixed to the outer circumferential surface of the cylinder (1), and a stator (2) for rotating the rotor (3) by applying electric power ( 4) and an oulder coupling 6 for turning the rotor 2 when the cylinder 1 is rotated. The casing 9 includes a fluid supply pipe 7 and a fluid discharge pipe 8. It is connected.

In the conventional fluid compressor configured as described above, when the rotor 3 is rotated when electric power is supplied to the stator 4, the cylinder 1 is rotated, and when the cylinder 1 is rotated, a protruding pin inside the cylinder 1 ( The Ouldom Coupling 6 into which the 2a) is inserted is synchronized, and the rectangular part of the rotating body 2 inserted so as to be movable up and down in the inner rectangular groove of the Oledom Coupling 6 is synchronized to the rotating body 2. Pivots with the cylinder (1). When the cylinder 1 and the rotating body 2 are pivoted, the blade 5 inserted into the rotating body 2 retreats and comes into close contact with the inner circumferential surface of the cylinder 1 so that the fluid supplied from the fluid supply pipe 7 is supplied to the blade ( 5 is compressed along the compression chamber formed between the outer circumferential surface of the rotating body 2 and the inner circumferential surface of the cylinder 1, and then compressed through the fluid discharge port 8.

However, the above-described conventional fluid compressor has a problem that the cylinder 1 and the rotating body 2 are synchronously rotated, so that the operation structure is complicated, so that the manufacturing cost is increased and the number of rotating objects is large.

The present invention has been made to solve the above problems of the prior art, the object of the structure to reduce the number of rotating objects to reduce the vibration and noise and to simplify the structure to provide a low-cost fluid compressor.

1 is a configuration diagram showing a cross section of a fluid compressor according to the prior art,

2 is a perspective view showing a rotating body that is a main configuration of a conventional fluid compressor,

3 is a cross-sectional view of the "A-A" cross section of Figure 1,

4 is a configuration diagram schematically showing a fluid compressor according to the present invention;

5 is a front sectional view of a compression means which is a main component of the present invention;

FIG. 6 is a cross-sectional view taken along line “B-B” of FIG. 5.

* Explanation of symbols for main parts of the drawings

10: sealed case 20: fixed body

30: outer rotor 31: spiral blade

40: internal rotating body 65: compression chamber

The present invention for achieving the above object is a fixed body formed with a spiral groove that is supported at both ends in a sealed case, the inside is formed of a cylindrical cavity, the pitch is reduced on the inner peripheral surface from the suction side to the discharge side, A cylindrical outer rotor of predetermined thickness that is eccentrically disposed along the axial direction and rotates the inner circumference of the fixture while a part of the outer circumference is in contact with the inner circumference of the fixture, and the outer circumference is fitted to the inner circumference of the outer rotor so that A plurality of inner rotors rotating about the same central axis and pivoting inward of the outer rotor, and inserted into the spiral groove of the fixture in a radial direction so as to be provided between a plurality of inner circumferences of the fixture and the inner circumference of the outer rotor. A spiral blade partitioning into a compression chamber, and drive means for pivoting the inner rotor. It is done.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention will be described.

As shown in FIGS. 4 to 6, the fluid compressor of the present invention has a spiral groove having both ends supported in the sealed case 10, the inside of which is formed with a cylindrical cavity, and the pitch of the fluid compressor getting smaller from the suction side to the discharge side on the inner circumferential surface thereof. The inner body of the fixing body 20 is pivoted in a state in which the fixed body 20 having the 21 formed therein and an eccentric arrangement along the axial direction of the fixing body 20 and a part of the outer circumferential surface contact with the inner circumferential surface of the fixing body 20. A cylindrical outer rotor 30 having a predetermined thickness and an outer circumferential surface are fitted to the inner circumferential surface of the outer rotor 30 to rotate about the same central axis as the stationary body 10 to the inside of the outer rotor 30. It consists of the internal rotating body 40 which turns.

In addition, it is inserted in the helical groove 21 of the fixing body 20 so as to be moved in and out in the radial direction to partition between the inner circumferential surface of the fixing body 20 and the inner circumferential surface of the outer rotating body 30 into a plurality of compression chambers 65. A spiral blade 31 and a drive means 50 for pivoting the internal rotor 40.

Referring to the operation of the present invention configured as described above are as follows.

When the driving means 50 is operated, the internal rotating body 40 pivots about the same central axis as the fixed body 20. When the inner rotor 40 is pivoted, the outer rotor 30 is pivoted while a part of its outer circumferential surface is in contact with the inner circumferential surface of the fixing body 20 to advance and retract the spiral blade 31 from the helical groove 21.

As the outer rotor 30 is turned, the fluid supplied to the suction side through the suction port 61 is composed of a spiral blade 31 and an inner circumferential surface of the fixed body 20 and an outer circumferential surface of the outer rotor 30. After the compression movement to the discharge side along the), it is discharged to the outside through the discharge port 62.

At this time, since the pitch of the spiral grooves 21 formed on the inner circumferential surface of the fixing body 20 decreases toward the discharge side, the size of the compression chamber 65b on the discharge side is smaller than the size of the compression chamber 65a on the suction side. Thus, the fluid is compressed as it moves from the suction side to the discharge side.

As described above, the fluid compressor of the present invention rotates only the inner rotor fitted to the outer rotor as a driving means, thereby reducing vibration and noise, and having a simple structure, thereby reducing manufacturing costs.

Claims (1)

A fixed body having both ends supported in a sealed case and formed with a cylindrical cavity inside, and a spiral groove formed on the inner circumferential surface thereof with a smaller pitch from the suction side to the discharge side, and eccentrically disposed along the axial direction of the fixed body and part of the outer circumferential surface thereof; Is a cylindrical outer rotor having a predetermined thickness turning the inner circumference of the fixture in contact with the inner circumferential surface of the fixture, and the outer circumference is fitted to the inner circumference of the outer rotor to rotate about the same central axis as the fixture to rotate the outer rotor. A spiral blade inserted into the inner rotary body pivoting inwardly of the entire body and inserted into the helical groove of the fixed member in a radial direction so as to partition the plurality of compression chambers between the inner circumferential surface of the fixed body and the inner circumferential surface of the outer rotary body; A fluid compressor comprising drive means for pivoting an internal rotating body.

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