AT9532U1 - COMPRESSOR - Google Patents

Abstract

In an air compressor, suction openings located in the cylinder covers (26) are connected to intake pipes (40) made of elastomeric material, whose length is a multiple of the clear cross section. The intake pipes (40) have a semicircular cylinder-side pipe section (42) and a straight-line free pipe section (44) which extends at a small distance above the outer surface of the associated cylinder (24, 26).

Description

2 AT 009 532 U1

The invention relates to a compressor according to the preamble of claim 1.

Such a compressor can be found in EP 0 335 362 B1. It is characterized by compact dimensions with good conveying characteristics and smoothness. For some applications, it would be desirable if such a compressor would run with even less noise.

To solve this problem, a compressor with the features specified in claim 1 is proposed by the present invention.

In the compressor according to the invention, the intake ports of the various cylinders are each provided with an intake pipe whose length is long compared to the clear cross-section of the intake pipe. In this way, the intake noise is significantly reduced. Surprisingly, there is an additional increase of the volume flow (the delivery rate) by about 5%. The reduction of the total noise level obtained by the intake pipe is about 3 to 9 dB (A) at medium listening frequencies of about 100 Hz to 2 kHz.

Advantageous developments of the invention are specified in the subclaims.

The claim 2 calls preferred ratios between the length of the intake pipes and their inner diameter.

The development of the invention according to claim 3 is advantageous in terms of a simple attachment of the intake pipes to the cylinders.

In accordance with claim 4 is obtained in a simple manner a detachable connection between the intake pipes and cylinders.

In the compressor according to claim 5 and the intake filter can contribute to the sound attenuation.

A compressor, as indicated in claim 6, has particularly favorable flow conditions at the ends of the intake pipes, which also has a favorable effect on the noise.

The claim 7 calls particularly proven curvature conditions for the end of the intake pipes provided in the intake.

The development of the invention according to claim 8 is in view of favorable flow conditions at the inlet of the intake manifold advantageous.

Diameter of the suction channel, as indicated in claim 9, have proven particularly for compressors medium flow rate (40 to 250 l / min), as they are often used in dental offices.

The development of the invention according to claim 10 makes it possible to place a longer main part of the intake pipe to a point at which there is still free space available within the clear contour in the respective considered compressor.

In a compressor according to claim 11, the longer straight pipe section may be parallel to an outer surface of the cylinder when the cylinder-side end of the intake pipe is connected to an air intake opening which, as is often the case, is provided in the cylinder cover. 3 AT 009 532 U1

The development of the invention according to claim 12 is advantageous in view of a good sound attenuation in dimensions of the intake pipes, which only slightly increase the light contour of the compressor.

The development of the invention according to claim 13 is in view of the advantage, on the one hand to achieve the greatest possible sound attenuation, on the other hand still unthrottled access to the air to ensure the inlet of the intake manifold.

The development of the invention according to claim 14 and 15 is in terms of a further improvement of the sound absorption of advantage.

The development of the invention according to claim 16 is in terms of even better sound attenuation advantage.

A compressor according to claim 17 is particularly compact. In addition, the intake of the two cylinder units are spatially separated.

In a compressor according to claim 18 flows into the inlet ends of the intake pipes relatively cool air, which contributes to a better cylinder filling.

The invention will be explained in more detail by means of exemplary embodiments with reference to the drawing. In this show:

Figure 1 is a perspective view of a two-cylinder compressor in V-arrangement of the cylinder, wherein the left in the drawing cylinder and an intake pipe thereof are shown partially in section;

Figure 2: A plan view of the compressor of Figure 1 there from the left;

Figure 3: An axial section through an intake pipe of the compressor of Figures 1 and 2 on an enlarged scale;

Figure 4: A top view of the intake pipe in Figure 3 seen from above; and FIG. 5 is a graph showing the effect of noise reducing suction tubes in a two-cylinder compressor with a typical delivery rate for dental applications.

The V-type two-cylinder compressor shown in the figures has a drive unit, generally designated 10, which comprises an electric motor 12 and a crank drive unit 14. The crank drive unit 14 has a housing 16 into which the shaft of the electric motor 12 is drawn. The latter carries there two angularly offset crank pin, which also drive via connecting rods piston not shown.

Details of the internal structure of the drive unit 14 can be found in the already mentioned EP 0 335 362 B1, to which reference is explicitly made in this regard.

The housing 16 of the crank drive unit 14 is closed at the front by a grid 18, behind which there is a fan wheel 20 driven by the motor shaft. This serves to suck in cooling air for the drive unit 14 and the electric motor 12.

The housing 16 of the drive unit 14 has a substantially square prismatic geometry, and on each of its two outer surfaces a compression unit 22 is placed.

Each of the compression units 22 comprises a cylinder block 24, a cylinder cover 26 closing its radially outer end, and the piston running inside the cylinder block 24, not shown in the drawing.

The cylinder cover 26 accommodates an inlet valve and an outlet valve, as can be seen in detail in EP 0 335 362 B1.

The inlet valve of the compression units 22 is in each case connected to a filter chamber 28, which is designed to run parallel to the cylinder axis at one of the corners of the cylinder block 24.

The outer end of the filter chamber 28 is closed by a fitting 30, which has a central passage 32. On the underside of the fitting 30, a filter cartridge 34 is attached, which retains impurities in the intake air and can be replaced after removing the fitting 30.

The fitting 30 has at its free, upper end a radial mounting flange 36 which can cooperate detent with a locking groove 38, which is provided at the cylinder-side end of a generally designated 40 intake pipe.

The intake pipe has a shape similar to a walking stick and comprises a cylinder-side bent pipe section 42 and a rectilinear pipe section 44 borne by this.

As can be seen from the drawing, the bent pipe section 42 has a circumferential extent of 180 °. Its diameter is chosen so that the straight pipe section 44 extends at a small distance above the outer surface of the cylinder block 24. The pipe sections 42 and 44 together form a correspondingly curved intake passage 46 which leads back from the upper end of the cylinder block 24 to the outer surface of the housing 16.

At the free end, the intake pipe 40 is provided with a toroidal bead 48, which seen in axial section circumferential extent is about 270 °. It connects the outer surface of the intake pipe 40 bumplessly with the end of the intake passage 46.

In a practical embodiment for such an intake pipe 40, as used in compressors having a delivery rate of about 120 l / min and a connected value of the electric motor 12 of about 1.5 kW, the length of the pipe section 44 is about 110 mm, the radius the center line of the pipe section 42 about 16 mm, the clear diameter of the intake passage 46 about 8 mm and the wall thickness of the intake pipe 40 about 4 mm at the free end and 6 mm at the cylinder-side end.

As can be seen from the drawings, the rectilinear pipe section 44 of the intake pipe 40 extends over slightly more than 90% of the axial extent of the cylinder unit formed by the cylinder block 24 and the cylinder cover 26. In this way, the compressor sucks in air from the vicinity of the cool outer surface of the housing 16, but the flow cross-section still remains so large that no appreciable throttling of the sucked air between the end face of the intake pipe 40 and the outer surface of the housing 16 takes place.

As the material for the intake pipe 40 is generally an elastomeric material, in particular a silicone material having a Shore A hardness of 50 to 70, preferably about 60.

If you are interested in a very strong reduction of the noise level, you can (especially with harder material of the intake pipe) occupy the inner surface of the intake pipe 40 with a dashed only at one point indicated sound-absorbing plastic layer 50 and on the outside of the housing 16 below the free ends the intake pipes 40 sound absorbing pad 52 (eg foam material or spring steel knit) provide, as also indicated by dashed lines.

The total noise insulation then obtained is based on the one hand on the sound attenuation in the interior of the filter cartridge 34, in the sound attenuation in the curved pipe section 42, where

Claims (18)

5 AT 009 532 U1 the sound waves on the wall material of the intake pipe 40 and are reflected from there, on the sound attenuation in the straight pipe section 44, where the sound waves are reflected several times until they reach the free end of the intake pipe 40, and on the sound attenuation by Impact on the outside of the housing 16. In this case, the sound attenuation can be further reduced by the plastic layer 50 and the pad 52, if these measures are provided. From the above description it can be seen that in the compressor described additional noise reduction is obtained without the clear contour of the compressor increases significantly compared to a conventional compressor. The magnitude of this effect in a two-cylinder compressor for dental purposes has the magnitude shown in Figure 5 as a function of frequency. Claims 1. Compressor having at least one compression unit (22), which has a cylinder (24) and a piston running in it, and with a drive motor (12) operating on the compression units (22), the cylinder (24) each having a Have expanded gas intake port and a compressed gas intake port, characterized in that at least one of the intake ports with a bent intake pipe (40) is in communication whose length is a multiple of the clear diameter of the intake manifold. 2. A compressor according to claim 1, characterized in that the length of the suction tube (40) is 10 to 30 times the clear diameter, preferably 15- to 25-fold, again preferably about 20 times the clear diameter. 3. A compressor according to claim 1 or 2, characterized in that a cylinder-side end of the intake pipe (40) is provided with coupling means (38) cooperating with counter-coupling means (36) of the cylinder (24). 4. A compressor according to claim 3, characterized in that the coupling means (38) are latching means which cooperate with counter-latching means (36) of the cylinder (24). 5. A compressor according to claim 3 or 4, characterized in that the counter-coupling means (36) at the inlet of a filter chamber (28) lie, in which an air filter (34) receiving. 6. A compressor according to any one of claims 1 to 5, characterized in that the remote from the cylinder, the free end of the intake pipe (40) has a rounding (48), via which the end face of the intake pipe (40) with the in the intake pipe (40). extending intake duct (46) is connected bum-free. 7. A compressor according to claim 6, characterized in that the radius of the rounding (48) is about 0.2 to 0.7 times, preferably about 0.5 times the radius of the intake passage (46). 8. A compressor according to claim 7, characterized in that the remote from the cylinder, the free end of the intake pipe (40) is formed as a toroidal bead (48) with an angular extent of about 270 °. 9. A compressor according to claim 7 or 8, characterized in that the radius of the intake passage (46) is about 3 to about 8 mm. 6 ΑΤ 009 532 U1 10. A compressor according to any one of claims 1 to 9, characterized in that the intake pipe (40) has a bent cylinder-side pipe section (42) and a substantially straight pipe section (44) carried by this. 11. A compressor according to claim 10, characterized in that the bent pipe section (42) has an angular extent of about 180 °. 12. A compressor according to claim 11, characterized in that extending the straight pipe section (44) over about 80 to 95% of the height of the cylinder (24, 26), preferably over about 90% of the cylinder height. 13. A compressor according to claim 12, characterized in that the free end of the intake pipes (40) ends at a distance above the outer surface of a crankcase (16), in which are housed on the piston operating crank mechanisms, which are moved by the drive motor (12) , 14. A compressor according to claim 13, characterized in that the outer surface of the crankcase (16) at least in the ends of the intake pipes (40) adjacent areas sound-absorbing (52). 15. A compressor according to any one of claims 1 to 14, characterized in that the inner surface of the intake pipes is at least partially sound-absorbing (50). 16. A compressor according to any one of claims 1 to 15, characterized in that the intake pipes (40) are made of an elastomeric material, which preferably has a Shore A hardness of 50 to 70, more preferably about 60, and in particular a silicone material can be. 17. A compressor according to any one of claims 1 to 16, wherein two compression units (22) by a common drive motor (12) are driven, characterized in that the suction openings of the two cylinders (24, 26) in the axial direction of the shaft of the drive motor ( 12) are offset from each other, preferably at corners of the square edge contour having cylinder (24, 26). 18. A compressor according to any one of claims 1 to 17, characterized in that the ends of the intake pipes (40) terminate at a point where cool air is present, in particular in a housing portion which is cooled by cooling air. Including 4 sheets of drawings