DE102006052398B4 - Piston, in particular for a compressor - Google Patents

Abstract

The invention relates to a piston, in particular for a compressor, with a piston cover (2) from which a piston running surface (4) extends, a plurality of depressions (21-29) being provided in an axial guide section (12) of the piston running surface (4) The piston running surface (4) has a sealing section (11) between the piston cover (2) and the axial guide section (12). In order to create a piston which has a longer service life than conventional pistons, a plurality of through holes (31-34) are provided in a transition region between the sealing section (11) and the axial guide section (12).

Description

The invention relates to a piston, in particular for a compressor, with a piston cover, from which a piston running surface, wherein in an axial guide portion of the piston running surface a plurality of recesses is provided, wherein the piston running surface between the piston cover and the axial guide portion has a sealing portion. The invention further relates to a compressor, in particular a reciprocating compressor, with a previously described piston.

From the German utility model DE 295 20 777 U1 a compressor with a reciprocating piston is known which has a shortened sealing portion. The shortened sealing portion serves to reduce the friction losses with sufficient sealing effect. From the European patent EP 1 299 647 B1 a Kolbenringnutenfreier Kleinkältemaschinenkompressorkolben with a substantially parallel to the direction of movement of the piston extending seal and guide surface portion of a piston skirt surface is known which has sealing and guide surfaces with an exemption, whereby a distance between the piston skirt surface and cylinder wall is present. The seal and guide surface portion is divided by a plurality of oil grooves. US patent application US 2005/0087166 A1 discloses a piston for an internal combustion engine. The piston has, following a piston running surface on a spaced from the cylinder surface and provided with a coating portion. The coating may be provided with openings or depressions. The German patent DE 199 37 110 B4 discloses a piston for a compressor having an outer peripheral surface having holes.

The object of the invention is to provide a piston according to the preamble of claim 1, which has a longer life than conventional pistons. In addition, the piston according to the invention should enable less friction and a better sealing effect.

The object is in a piston, in particular for a compressor, with a piston cover, from which a piston running surface, wherein in an axial guide portion of the piston running surface a plurality of recesses is provided, wherein the piston running surface between the piston cover and the axial guide portion has a sealing portion, achieved in that a plurality of through holes are provided in a transition region between the sealing portion and the axial guide portion. The piston tread is also referred to as a contact surface, since it comes into contact with a cylinder bore of a cylinder in the installed state of the piston. The recesses and / or holes reduce the size of the contact area. The smaller contact area is advantageous when the piston tilts or capsizes. The smaller contact surface causes less damage to the cylinder wall when the piston presses at an oblique or oblique angle to the cylinder wall. In addition, the recesses and / or holes in the operation of the piston serve as a lubricant reservoir. At the same time, the areas of the piston running surface between the recesses and / or holes allow a stable guidance of the piston in the cylinder bore. The areas of the piston running surface between the recesses and / or holes are preferably arranged together with the remaining piston running surface in a lateral surface of a right circular cylinder. Between the piston running surface and the cylinder bore, a guide gap is formed. Preferably, a viable lubricating film is formed in the guide gap. The sealing portion seals in the installed state of the piston from a guide gap between the piston and the cylinder bore. The through holes on the one hand allow the passage of lubricant from the interior of the piston to the outside. The lubricant serves to lubricate the piston running surface. Part of the lubricant is stored in the depressions and / or holes. On the other hand, the through holes allow the passage of gas from the cylinder into the interior of the piston to compensate for an undesirable pressure difference in a certain operating condition.

A preferred embodiment of the piston is characterized in that the axial guide portion is arranged on the piston crown facing away from the end of the piston running surface. This prevents unwanted tilting of the piston in the cylinder bore.

A further preferred embodiment of the piston is characterized in that the sealing portion has a smooth surface. The relatively smooth surface of the sealing portion is exactly adapted to the cylinder bore of the cylinder. This will ensure that the piston can move back and forth in the cylinder bore without tilting.

A further preferred embodiment of the piston is characterized in that the through holes in the transition region have a larger diameter than the depressions and / or holes in the axial guide section. The through holes are preferably arranged distributed uniformly along a circumferential line of the piston.

A further preferred embodiment of the piston is characterized in that the recesses and / or holes in the piston tread embossed and / or punched and / or drilled and / or laser cut. This has the advantage that a coating of the tread can be omitted.

A further preferred embodiment of the piston is characterized in that the recesses and / or holes are distributed in particular uniformly over the axial guide portion. The depressions and / or holes are arranged in a specific pattern.

A further preferred embodiment of the piston is characterized in that the recesses and / or holes are arranged in a pattern having the shape of a rectangle, a square, a triangle, a parallelogram, a circle or an ellipse.

Another preferred exemplary embodiment of the piston is characterized in that the guide section extends over approximately two thirds of the piston running surface. This division of the piston tread has proved to be particularly advantageous in the context of the present invention.

A further preferred embodiment of the piston is characterized in that the outer diameter of the guide portion is the same size as the outer diameter of the remaining piston running surface, in particular of the sealing portion. This allows a stable guidance of the piston in the cylinder bore.

Another preferred embodiment of the piston is characterized in that the piston cover has a projection. For example, the projection or pin is substantially in the shape of a circular cylinder and helps to reduce the dead volume during compaction.

A further preferred embodiment of the piston is characterized in that the projection is arranged within a recessed area in the piston cover. The recess serves for example for receiving a part of the valve plate. Preferably, the projection of the piston cover is received in a recess of the valve plate.

The invention further relates to a compressor, in particular a reciprocating compressor, with a previously described piston. By the piston according to the invention the life of the compressor is extended. In addition, the friction can be reduced by the piston according to the invention and the sealing effect can be improved.

Further advantages, features and details of the invention will become apparent from the following description in which, with reference to the drawings, an embodiment is described in detail. Show it:

1 a piston according to the invention in front view;

2 the piston off 1 in the back view and

3 a perspective view of the piston from the 1 and 2 ,

In the 1 to 3 is a piston 1 shown in different views. At the piston 1 it is the piston of a reciprocating compressor (not shown). The reciprocating compressor includes a cylinder having a cylinder bore in which the piston 1 is moved back and forth. The cylinder bore is frontally covered by a valve plate, above which there is a cylinder head with a Saugventilkammer and a pressure valve chamber. The Saugventilkammer and the pressure valve chamber are connected via a Saugventilkanal and a pressure valve channel with a displacement in the cylinder.

The displacement of the reciprocating compressor is in the cylinder bore of a piston cover 2 of the piston 1 limited. From the piston cover 2 goes a piston tread 4 from, which has substantially the shape of a straight circular cylinder jacket. The piston tread 4 includes starting from the piston cover 2 in the axial direction, a sealing portion 11 and a guide section 12 , The sealing section 11 extends over about one third of the piston tread 4 , The guide section 4 For example, extends over about two thirds of the piston tread 4 ,

The sealing section 11 has a relatively smooth surface. In the guide section 12 is a multitude of wells 21 to 29 or holes provided. The wells 21 to 29 are in the guide section 12 in the piston tread 4 imprinted. The wells 21 to 29 are even over the guide section 12 distributed.

The piston 1 is adapted with high accuracy to the associated cylinder. An air gap or guide gap between the cylinder bore and the piston 1 should be as small as possible to ensure high density during compaction. It is important that the piston 1 as possible just in the cylinder bore moved back and forth, and that sufficient lubrication is maintained.

Due to installation or transport, small angular errors can occur in the calibration of the angle between the crank axis and the cylinder axis. As a result, an undesirable tilting of the piston occur, whereby the lubricating film is interrupted on the cylinder wall. This can cause leaks in the compressor. By the occurrence of friction and wear, the life of the compressor can be reduced. The piston may be permanently deformed, resulting in leaks.

Through the depressions 21 to 29 in the guide section 12 the piston tread 4 becomes the contact area or interface between the piston 1 and the cylinder bore is reduced. At the same time, the depressions or holes are used 21 to 29 as a lubricant reservoir, in particular as an oil reservoir.

The reduced contact surface is on the one hand advantageous if the piston tilts. Due to the reduced contact surface damage to the cylinder bore or the walls of the cylinder and the piston 1 even be reduced. In normal operation of the piston 1 gets through the depressions 21 to 29 in addition, the sealing effect and the lubrication of the piston 1 improved. That in the wells 21 to 29 absorbed oil and thereby improved lubrication also helps to reduce damage when the piston 1 should tip over.

In a transition region between the sealing portion 1 and the guide section 12 are several through holes 31 to 34 over the circumference of the piston tread 4 arranged distributed. The through holes 31 to 34 extend through the piston tread 4 through into the interior of the piston 1 and have two functions.

On the one hand, the through holes provide 31 to 34 for lubricating the cylinder bore or the cylinder wall during operation of the piston 1 , When the piston 1 moved back and forth, then passes oil or other lubricant to a connecting rod, to which the piston 1 is hinged in its interior. This oil or lubricant gets out of the interior of the piston 1 through the through holes 31 to 34 to the outside and lubricates the cylinder bore or the cylinder wall. Part of the oil or lubricant also gets into the guide section 12 and there in the hollows 21 to 29 , The wells 21 to 29 and the profile formed therefrom ensures that the oil or lubricant is better retained, especially in comparison to a smooth profile.

The second function of the through holes 31 to 34 concerns an additional possibility that gas can escape from the displacement of the compressor when the compressor is stopped. When stopping the compressor, a pressure difference between the ambient pressure and the pressure in front of the piston may occur. It is advantageous to compensate for this pressure difference when the compressor is restarted. The through holes 31 to 34 allow pressurized gas to escape.

In the piston tread 4 are also two relatively large through holes 41 . 42 intended. The through holes 41 . 42 are left for the most part in the guide section. Part of the through holes 41 . 42 But it is also in the sealing section 11 spared. The through holes 41 . 42 serve to receive the ends of a piston pin, by means of which the piston 1 is hinged to one end of the connecting rod (not shown). Therefore, the through holes become 41 . 42 also referred to as pin eyes.

In the face of the piston cover 2 is a deepened area 51 intended. The recessed area 51 is slightly lower than the rest of the end face of the piston cover 2 and is fitted to a valve plate (not shown). The recessed area 51 prevents the piston cover 2 on the valve plate abuts when the piston 1 moved back and forth in the cylinder bore.

In the recessed area 51 extends a projection 54 from the piston cover 2 out. The lead 54 has the shape of a pin, with its free end above the end face of the piston cover 2 is arranged. The lead 54 , which is also referred to as a pin, contributes to the reduction of dead volume during compaction. It is important to displace as much air as possible out of the cylinder once it has been compressed. Otherwise, the power of the compressor is reduced because a dead volume of gas is formed, which is not completely displaced.

Claims (12)

Piston, in particular for a compressor, with a piston cover ( 2 ), from which a piston tread ( 4 ), wherein in an axial guide section ( 12 ) of the piston tread ( 4 ) a plurality of depressions ( 21 - 29 ) is provided, wherein the piston tread ( 4 ) between the piston cover ( 2 ) and the axial guide section ( 12 ) a sealing section ( 11 ), characterized in that in a transition region between the sealing portion ( 11 ) and the axial guide section ( 12 ) several through holes ( 31 - 34 ) are provided. Piston according to claim 1, characterized in that the axial guide section ( 12 ) on the piston cover ( 2 ) facing away from the end of the piston tread ( 4 ) is arranged. Piston according to one of the preceding claims, characterized in that the sealing portion ( 11 ) has a smooth surface. Piston according to one of the preceding claims, characterized in that the through holes ( 31 - 34 ) in the transition region has a larger diameter than the depressions ( 21 - 29 ) in the axial guide section (FIG. 12 ) exhibit. Piston according to one of the preceding claims, characterized in that the depressions ( 21 - 29 ) in the piston tread ( 4 ) are embossed and / or punched and / or drilled and / or laser cut. Piston according to one of the preceding claims, characterized in that the depressions ( 21 - 29 ) in particular uniformly over the axial guide section ( 12 ) are distributed. Piston according to one of the preceding claims, characterized in that the depressions ( 21 - 29 ) are arranged in a pattern having the shape of a rectangle, a square, a triangle, a parallelogram, a circle or an ellipse. Piston according to one of the preceding claims, characterized in that the guide portion ( 12 ) over about two-thirds of the piston tread ( 4 ). Piston according to one of the preceding claims, characterized in that the outer diameter of the guide portion ( 12 ) is the same size as the outer diameter of the remaining piston running surface ( 4 ), in particular of the sealing section ( 11 ). Piston according to one of the preceding claims, characterized in that the piston cover ( 2 ) a lead ( 54 ) having. Piston according to claim 10, characterized in that the projection ( 54 ) within a recessed area ( 51 ) in the piston cover ( 2 ) is arranged. Compressor, in particular reciprocating compressor, with a piston ( 1 ) according to any one of the preceding claims.

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