DE2850371A1 - LEAF COMPRESSOR - Google Patents

Description

R. DK 20
11/10/1978 Vo / Ht

Diesel Kiki Co., Ltd., 6-7 Shibuya, 3-chome, Shibuya-ku, Tokyo, JAPAN.

Vane compressor State of the art

The invention is based on a vane compressor according to the genre of the main claim. In a known vane compressor of this type, the space is on the radial inner base of the slots receiving the blades under the outlet pressure of the vane compressor. Through this the wings are pressed radially outwards and so in sealing contact with the cylindrical inner wall of the Housing recess held. When the rotor rotates, this compressive force becomes the centrifugal force acting on the blades superimposed. At high speeds, the resulting total force increases excessively, which is great

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mechanical friction losses between the outer edge of the wing and the inner wall of the housing recess result.

Advantages of the invention

The vane compressor according to the invention with the characteristic Features of the main claim has the advantage that when the speed of the rotor is a certain Has exceeded the value, the space at the bottom of the slots with a cell of the each during the suction stroke Working space of the vane compressor is connected. This increases the force with which the wings move radially be pushed outside, reduced to the extent necessary for a sufficient seal. Excessive frictional losses are thus avoided.

By the features listed in the subclaims Advantageous developments and improvements of the vane compressor specified in the main claim are possible.

drawing

Embodiments of the invention are based on the drawing and explained in more detail in the following description. FIG. 1 shows a vane compressor in longitudinal section, Figure 2 the vane compressor in cross section. In Figure 3 is an enlarged view a second embodiment example of a centrifugally actuated valve in the rotor of the vane compressor is shown.

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Description of the exemplary embodiments

In Figures 1 and 2 of the drawing, a vane compressor is shown. The vane compressor consists of a cylindrical stator 25 which has a cylindrical housing recess 12. On the two front sides
Side plates 38, 40 are screwed onto the stator 25 and close the housing recess in the axial direction. A rotating rotor 15 is located in the housing recess 12
arranged, which has a circular cylindrical lateral surface. The outer surface of the rotor 15 touches the inner wall of the housing recess 12 along two diagonally opposite surface lines in a sealing manner. Between the outer surface of the rotor and the cylindrical inner wall
of the housing recess 12, two approximately sickle-shaped working spaces are formed.

In a central bore of the rotor 15 is the end of a
Shaft 17 pressed in, which is in two plain bearings, which in
a hollow bearing tube of the left side plate 40 is arranged. The end that emerges outwards
the shaft 17 is sealed by a known shaft sealing device 19. The stator 25 including side plates
38, 40 is encompassed by a pot-shaped cover 4,
which is fastened to a base body 46 by means of screws 26. The base body 46 is in turn connected to the stator 25, 38, 40 by means of screws 27.

The base body 46 contains a suction chamber 47, which
Via a connection pipe 22 equipped with a suction valve 20 and a pipe not shown in the drawing

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Hose connected to a flow medium source, for example a refrigerant circuit of a motor vehicle air conditioning system is. The suction pressure of the vane compressor prevails in the suction chamber 47.

The space formed between the stator 25, 38, 40 and the cover 4 forms the high pressure chamber 36 of the vane cell compressor, which via a coagulation filter 37 separating oil and flow medium with the working space in the Inside the stand 25 is connected.

In Figure 2 are those between the outer surface of the rotor 15 and the inner wall of the housing recess 12 formed approximately sickle-shaped working spaces. The work rooms each have a suction and a pressure area. Of the The suction area of each work space is via a suction opening 10 in the stator 25 with the suction chamber 47 in the base body 46 connected. Each pressure area of the work space is via a delivery opening 16, which is through a plate-shaped Valve 6 can be closed, connected to a space formed by a cover 7. This room is over a channel 8, which opens into the coagulation filter 37, is connected to the high-pressure chamber 36.

In the rotor 15 there are several approximately radially extending slots 14 arranged, in which wing 11 is tightly and slidably guided are. With their outer edges, the wings 11 rest on the cylindrical inner surface of the housing recess 12 and divide the work space into individual cells.

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As shown in Figure 1, the shaft 17 carries a integrally formed flange 17a, which is in an associated Recess in the rotor 15 is fitted. A circular cylindrical chamber 48 is located concentrically in the rotor 15, which via a channel not shown in the drawing, in which a throttle is preferably installed, with which high-pressure chamber 36 is connected. The inner end of the slots 14 opens into chamber 48. In chamber 48 and in the inner part of the slots 14, which is sealed off from the outside by the blades 11, that prevails in the high-pressure chamber applied delivery pressure of the vane compressor.

In a radial blind bore in the rotor 15 there is a centrifugal force-operated valve 3, via which the chamber 48 and thus the inner base of the slots 14 with a cell of the working space of the vane compressor can connect. The valve 3 consists of a hollow cylindrical slide 34, which is inside one machined from the outer peripheral side of the rotor 15 Blind bore is movably guided and is held by a spring 33 against the bottom of the blind bore. the The end of the spring 33 facing away from the slide 34 is supported on a threaded plug 32 with which the blind hole is formed is locked. In the area covered by the slide 34 when the rotor is at a standstill (FIG. 1) opens into the wall the blind bore a channel 31 running radially with respect to this. In. Channel 31 is a check valve 39 the Valve 3 arranged downstream. The check valve 39 opens in the direction pointing away from the valve 3. It is preferably arranged so that the centrifugal force of the rotor does not have any significant effect on the actuation of the

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Has valve member of the check valve. The channel 31 opens out on the outer surface of the rotor 15 into a cell of the working space. The opening of the channel 31 is preferably located near the front wing, seen in the direction of rotation, which delimits a cell.

The vane compressor described works as follows: When the rotor 15 rotates in the direction of the arrow 50 (Figure 2), the cells of the working area, which are delimited by two adjacent wings, initially increase (Suction stroke) until they finally shrink again; (Pressure stroke). During their enlargement, each cell is des Working space connected to the suction opening 10, through which flow medium enters the cell. With further circulation the cell delimited by two wings 11 is reduced in size this again, whereby the enclosed flow medium is compressed, over which a plate-shaped Valve 6 having valve member, the compressed flow medium is finally pushed out again and arrives through the coagulation filter 37 into the high pressure chamber 36. The oil separated by the filter 37 collects in the lower area of the high pressure chamber 36 and does not get through channels shown in more detail to the suction opening 10, in the housing recess 12 and in the chamber 48 or the slots 14,

Due to the high pressure prevailing in the chamber 48 - it corresponds to the pressure prevailing in the high pressure chamber the wings 11 pressed against the inner wall of the housing recess 12. When the rotor 15 rotates, it affects everyone the wing 11 in addition to this pressure force still another Centrifugal force, which depends on the speed of the

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Vane compressor enlarged. Of course it is on rotation of the rotor 15 also the hollow cylindrical slide 34 of the valve 3 is subjected to centrifugal force. This centrifugal force also increases with increasing speed, whereby the slide 35 is moved radially outward against the force of the spring 33 until finally at a certain speed of the channel 31 is released. The prevailing pressure in the chamber 48 is then during a relieved every suction stroke to the cell of the work area, in which the channel 31 opens. In this way, at high speeds, the individual blades 11 are diametrically opposed outwardly pressing flow medium pressure force reduced. The pressure then established in the chamber 48 is by the length and by the cross-sectional area of the channel 31 and determined by the actuation pressure of the check valve 39. So the wings are now in the Mainly only applied to the inner wall of the housing recess 12 by the centrifugal force acting on it.

The weight of the movable slide 34 is so great that the slide 34 moves slidingly in accordance with the speed of the rotor 15. The difference between that of the side the area opposite to the chamber 48 (cross-sectional area) on the one hand and that to the side the spring 33 lying opposite the pressure-applied surface on the other hand, it should be kept small.

If the centrifugally actuated valve 3 in the one in the drawing rotor 15 shown arranged on the front and on the back of a wing 11, one can achieve that it is approximately uniform during one revolution of the rotor releases the pressure.

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In Figure 3, a second embodiment of a slide 34 'is shown, which is designed as a cup-shaped part is. Otherwise, the function of this slide is analogous to that of the first exemplary embodiment.

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Claims (5)

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11/10/1978 Vo / Ht Diesel Kiki Co., Ltd., 6-7 Shibuya, 3-chome, Shibuya-ku Tokyo, JAPAN Expectations '' 1./ vane compressor with a cylindrical housing recess, in which a circular cylindrical rotor rotates, which at least along the inner wall of the housing recess a surface line sealingly (almost) touches and has radial slots in which wings are guided, which the Split the working space formed between the outer surface of the rotor and the inner wall into individual cells, wherein the space at the bottom of the slots is under outlet pressure, characterized in that the space (14, 48) has a in the rotor (15) arranged channel (31) in which a centrifugal force-operated Valve (3) and a downstream check valve (39), which is located in the one facing away from space (48) Direction opens, can be connected to a cell of the working space of the vane compressor. 2. Vane compressor according to claim 1, characterized in that that the valve (3) has a spring-loaded, radially movable slide (34, 34 '). 9 0 9 8 2 1/0747 - 2 - row DK 20 3. Vane compressor according to claim 2, characterized in that that the slide (34, 34 ") in a, preferably radially outwardly closed, blind bore in the rotor (15) is arranged. 4. Vane compressor according to claim 2, characterized in that that the slide is designed as a hollow cylinder. 5. Vane compressor according to one of the preceding
Claims, characterized in that the check valve (39) can be actuated independently of the centrifugal force. 9 0 9021 / (1747