DE102020210124A1 - Metallic housing part, hydraulic axial piston machine with a metallic housing part and a cast core for casting a metallic housing part - Google Patents

Abstract

The invention relates to a metallic housing part which is provided for a hydraulic device, in particular for a hydraulic axial piston machine, and is cast using a lost casting core and which has a cavity created during casting due to the shape of the casting core and a channel which leads into the cavity The invention also relates to a hydraulic axial piston machine, in particular a hydraulic axial piston machine in a bent-axis design with a metallic housing part of the type mentioned. According to the invention, the channel opening into the cavity protrudes like a tube into the cavity. According to the invention, the casting core has a circumferentially closed recess in one surface.

Description

The invention relates to a metallic housing part which is provided for a hydraulic device, in particular for a hydraulic axial piston machine, and is cast using a lost casting core and which has a cavity created during casting due to the shape of the casting core and a channel which leads into the cavity flows.

The invention also relates to a hydraulic axial piston machine, in particular a hydraulic axial piston machine of bent-axis design.

Finally, the invention relates to a casting core for casting a metallic housing part.

From the DE 10 2012 014 540 A1 or from the DE 10 2012 016 068 A1 discloses a hydraulic axial piston machine in a bent-axis design with a metallic housing part that is cast using a lost casting core and that has a cavity that is created due to the shape of the casting core. the 1 the DE 10 2012 016 068 A1 a casting core can be removed, which is used when casting the housing part. In the case of the axial piston machines known from the cited publications, the housing part under consideration has two working connections after further processing, which are also visible from the outside after assembly with another housing part to form a complete housing, and two openings on an inside, which overlap with two openings in a control plate and one of which is connected to the one working port and the other to the other working port through a fluid path formed by a cavity mentioned above. A valve, such as a flushing valve, a pressure-limiting valve, a counterbalance valve or a non-return valve, or a sensor, such as a pressure sensor, can be connected to such a cavity via the channel opening into the cavity. In principle, however, the channel can also be a bore that represents a working connection that is only opened during further processing of the raw housing part.

The transition from the channel into the cavity is a weak point in terms of fatigue strength. Crack formation in the housing part can begin at such a weak point, which ultimately leads to failure of the hydraulic device having such a housing part.

The invention is based on the object of providing a housing part which is provided for a hydraulic device, in particular for a hydraulic axial piston machine, and is cast using a lost casting core and which has a cavity created during casting due to the shape of the casting core and a channel which into the cavity, to be further developed in such a way that it has a high fatigue strength, even if the cavity and the channel are subjected to high pressures during operation.

This object is achieved in a housing part with the features specified above in that the channel projects into the hollow space in the manner of a tube. In this way, during operation, pressure is applied to the duct from the inside and from the outside in the area of the mouth, with the result that the intersection between the duct and the cavity is almost stress-free.

Advantageous configurations of a metallic housing part according to the invention can be found in the dependent claims. 2 to 8

The distance by which the channel protrudes into the cavity is preferably two tenths to three tenths of the largest dimension of the channel mouth. If the channel is a bore, the largest dimension is the diameter and is the same in all directions. Preferably, the distance that the duct projects into the cavity is also one tenth to one twentieth the width of the cavity in a direction normal to the plane of the mouth of the duct. In this way, a substantial freedom from stress is already achieved without the channel protruding into the cavity having a significant adverse effect on the fluid flow flowing through the cavity.

It is also advantageous if the shape and size of the outlet opening of the channel is equal to a cross section of the channel immediately behind the outlet opening.

The outlet opening of the channel is preferably surrounded by a bead, the radially outer surface of which is formed by a surface created during casting. The free, ring-shaped end face of the bead, which is created when the housing part is cast, can be completely rounded. However, it appears simpler if the end face has a planar width greater than zero. Preferably only the outer edge of the face is rounded.

If the channel is a machined circular-cylindrical bore, then the radially inner surface of the bead is preferably formed by the machined machining. This makes the casting core easy, since as a negative it only needs to have a depression with a flat bottom. In addition, it is ensured that the wall of the bore is smooth up to the mouth opening.

The use of the idea according to the invention is of particular advantage if the metallic housing part is a housing part of an axial piston machine and has two working connections on the outside and two openings on the inside, one of which is connected to one working connection and the other to the other working connection, and if the cavity into which the channel opens is located in the fluid path between a working connection and an opening.

The invention also manifests itself in a hydraulic axial piston machine, in particular in a hydraulic axial piston machine of bent-axis design, which has a metallic housing part which is cast using a lost casting core and which has a cavity formed during casting due to the shape of the casting core and a channel which opens into the cavity and protrudes like a tube into the cavity. Furthermore, the housing part can have the advantageous developments specified above. However, the invention can also be used with advantages in a hydraulic axial piston machine with a swash plate design.

The invention also manifests itself in a casting core which is provided for casting a metal housing part according to the invention or a blank of the housing part and which has a circumferentially closed recess in one surface. If the indentation is ring-like, a bead is immediately formed during casting. If the indentation covers the entire area, then the radially outer surface is already formed during casting due to the indentation, while the radially inner surface is only formed during further machining. In this respect, the invention also manifests itself in a blank of the metallic housing part according to the invention, which has a full-surface elevation in a cavity corresponding to the full-surface depression.

An embodiment of a hydraulic axial piston motor according to the invention, a housing part of this axial piston motor and a cast core for the housing part are shown in the drawings. The invention will now be explained in more detail on the basis of the figures in these drawings.

• 1 eine perspektivische Ansicht des Axialkolbenmotors, dessen Gehäuse zwei Gehäuseteile aufweist,
• 2 eine erste Ansicht des die Arbeitsanschlüsse aufweisenden Gehäuseteils aus 1,
• 3 eine zweite Ansicht des Gehäuseteils aus 2,
• 4 eine dritte Ansicht des Gehäuseteils aus 2,
• 5 eine Ansicht auf einen Gusskern im Bereich der Arbeitsanschlüsse des zu gießenden Gehäuseteils, wobei der Gusskern im Bereich des einen Arbeitsanschluss herkömmlich und im Bereich des anderen Arbeitsanschlusses erfindungsgemäß ausgebildet ist,
• 6 einen Schnitt durch das stark vereinfacht dargestellte Gehäuseteil aus den 2 bis 4 mit der erfindungsgemäßen Ausbildung der einen Kanalmündung und mit der hergebrachten Kanalmündung im Vergleich und
• 7 in einem stark vergrößerten Maßstab einen Ausschnitt aus 6.

Show it

• 1 a perspective view of the axial piston motor, the housing of which has two housing parts,
• 2 a first view of the housing part having the working connections 1 ,
• 3 a second view of the housing part 2 ,
• 4 a third view of the housing part 2 ,
• 5 a view of a casting core in the area of the working connections of the housing part to be cast, the casting core being designed conventionally in the area of one working connection and according to the invention in the area of the other working connection,
• 6 a section through the housing part shown in greatly simplified form 2 until 4 with the inventive design of a channel mouth and with the traditional channel mouth in comparison and
• 7 a section on a greatly enlarged scale 6 .

The hydraulic axial piston machine 1 is a bent-axis type axial piston motor 10 which has a constant displacement and is reversible in its direction of rotation. The axial piston motor has a housing 11 with a housing part 12 in which the drive shaft 13 with the drive flange is rotatably mounted, and with a housing part 14 in which the cylinder drum with the displacement piston rotates, in which a control plate is arranged and which is in a finely machined, flat and rear outer surface 15 has two working connections A and B, which are designed as SAE connections. Alternatively, the working connections can also be located in a lower outer surface 16 or in side surfaces 17 and 18. On an inside, the housing part 14 has two kidney-shaped openings 19 and 20, one of which registers with a first kidney-shaped slot and the other with a second kidney-shaped slot in the control plate. The two housing parts 12 and 14 are made of cast iron and are each cast using sand cores.

The sand core 25 for casting the housing part 14 is shown in detail in 5 shown. During casting, the large, compact part 26 of the sand core forms the interior of the housing part 14, in which the cylinder drum and the control plate are located. Two sensor-like extensions 27 and 28 protrude from part 26 of the sand core, of which, when housing part 14 is cast, extension 25 forms the fluid path, which appears as cast cavity 29, between kidney-shaped opening 19 and working connection A, and extension 28 forms the cast cavity 30 representing the fluid path between the kidney-shaped opening 20 and the working port B forms.

The axial piston motor shown in bent-axis design is intended for use in closed and open hydraulic circuits. The working connections A and B, the inner openings 19 and 20 and the two cavities 29 and 30, each representing a fluid path, are designed to be identical to one another and are mirror images of a central plane 31 of the axial piston motor.

Depending on the application, the axial piston motor is equipped with various valves that must be fluidically connected to the working connections A and B. For example, a flushing valve may be provided along with a flushing nozzle and a pressure relief valve. Or each working port is secured against excessive pressure by a pressure relief valve combined with a check valve. If the pressure at one working port is too high, pressurized fluid flows from this working port to the other working port via the one pressure-limiting valve and the check valve assigned to the other pressure-limiting valve. The connection from the working ports A and B to the built-in or attached valve is advantageously established internally via channels running in the housing part 14, in particular via bores introduced by machining after casting.

The cavity, in which a valve or a movable valve body is inserted, is also produced after casting by machining or at least finish-machined. the inside 1 The axial piston engine 10 shown is equipped with a scavenging valve in conjunction with a scavenging nozzle and a pressure control valve. A continuous bore 35 is present in the housing part 14 for receiving a scavenging piston of the scavenging valve. The flushing nozzle and the pressure control valve are inserted into a bore 37 which runs in the center plane 31 and opens into the bore 35 for the flushing piston. After inserting the pressure control valve, in whose movable valve body the flushing nozzle is usually integrated, the bore 37 is closed by a screw plug 38, as shown in FIG 1 is evident.

A bore 40 runs between the bore 35 and the cavity 29 and a bore 41 runs between the bore 35 and the cavity 30. These bores 40 and 41 have been introduced by machining after the housing part 14 has been cast. Therefore, they open out on both sides of the bore 37 for the flushing nozzle and the pressure control valve and are each closed by a screw plug 42 after final assembly. The flushing valve is connected to working connection A via bore 40 and to working connection B via bore 41 .

On the inside, the bores 40 and 41 do not end flush with the surrounding surface of the cavities 29 and 30, but protrude like a tube into the respective cavity. In detail, the orifice openings 43 of the two bores 40 and 41 are surrounded by a bead 44, the end face of which lies in a plane that runs perpendicular to the longitudinal direction of the bores, so that a circular end face 45 of the bead and circular orifice openings result, even if the Surface of a cavity 29, 30 in the region of a bore 40, 41 runs obliquely to the bore. The mouth openings 43 thus have the same cross-section as the bores in terms of shape and size. The radially outer wall of the bead 44 is formed by a surface formed during casting. It is rounded off in the surface of the cavity 29, 30 and in the end face 45, which has a width greater than zero and is therefore ring-shaped. The distance by which a bore 40, 41 protrudes into a cavity 29, 30 is presently about 2.3 tenths of the diameter of the orifice 43. The distance by which a bore 40, 41 protrudes into a cavity 29, 30 is here about 1.5 twentieth of the width of a cavity 29, 30 in the direction of the bore axis.

From the enlarged view according to 7 the end face 45 of the bead 44 lying in one plane and having a width greater than zero can be clearly seen. It can also be clearly seen that the radially outer wall 46 of the bead 44 merges into the surface of the cavity 29 or 30 and into the end face 45 in a rounded manner.

In order to ultimately obtain a bore 40, 41, which protrudes like a tube into a cavity 29, 30, it is clear how 5 As can be seen, in the region of the later mouths of the bores in the sand core there is a circular, circumferentially closed depression 50, the edge of which is designed according to the shape that the outer wall of a bead 44 should have. The diameter of a recess 50 is slightly larger than the diameter of a bore 40, 41. After casting, the entire area within the outer wall of what will later be the bead is therefore filled with material. If, during further machining of the housing part 14, the bore 40, 41 is introduced centrically to the elevation created by the depression 50 in the sand core in the raw housing part 14, the bead 44 is formed with a face width greater than zero and with an inner surface that is defined by the machining has been formed.

In 5 only in the extension 27 of the sand core 25 is the depression 50 for the bore 40 located. In order to clarify the difference between the construction of a sand core according to the invention and the conventional one, in the other extension 28 in the area in which the bore 41 opens into the cavity 30 after machining, there is a flat, non-countersunk surface 51. With such a sand core, only the bore 40 would protrude like a tube into the cavity 29, while the bore 41 would end in the surface of the cavity 30.

In the specific case, especially if the axial piston motor is intended to rotate in both directions and each of the two working connections A and B can be the high-pressure connection, both bores 40 and 41 protrude like tubes into the cavities 29 and 30.

The exemplary embodiment represents a hydraulic axial piston motor in a bent-axis design with a constant swept volume. However, the invention can also be used in an axial piston motor whose swept volume is adjustable. The invention can also be used in hydraulic axial piston machines with a swash plate design with a constant or with an adjustable displacement. It also does not matter whether the axial piston machine is a motor or a pump or can be operated as a motor and as a pump.

Reference List

10

axial piston motor

11

housing of 10

12

housing part

13

drive shaft

14

housing part

15

Outer surface of 14

16

Outer surface of 14

17

side face of 14

18

side face of 14

19

Opening inside in 14

20

Opening inside in 14

25

sand core

26

part of 25

27

extension to 26

28

extension to 26

29

cavity in 14

30

cavity in 14

31

Midplane of 14

35

drilling

36

Screw

37

drilling

38

Screw

40

drilling

41

drilling

42

Screw

43

Muzzle opening of 40, 41

44

bead

45

face of 44

50

deepening in 25

51

area at 25

A

working connection in 14

B

working connection in 14

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent Literature Cited

• DE 102012014540 A1 [0004]
• DE 102012016068 A1 [0004]

Claims (11)

Metallic housing part (14) which is provided for a hydraulic device, in particular for a hydraulic axial piston machine (10) and is cast using a lost casting core (25) and which has a cavity ( 29, 30) and a channel (40, 41) which opens into the cavity (29, 30), characterized in that the channel (40, 41) projects into the cavity (29, 30) like a tube. Metallic housing part Claim 1 , the distance by which the channel (40, 41) projects into the cavity (29, 30) being two tenths to three tenths of the largest dimension of the mouth opening (43) of the channel (40, 41). Metallic housing part Claim 1 or 2 wherein the distance that the channel (40,41) projects into the cavity (29,30) is one twentieth to one tenth the width of the cavity (29,30) in a direction perpendicular to the plane of the orifice (43) of the channel (40, 41). Metallic housing part Claim 1 , 2 or 3 , wherein the mouth opening (43) of the channel (40, 41) is equal in shape and size to a cross section of the channel (40, 41 immediately behind the mouth opening (43). Metallic housing part according to one of patent claims 1 until 4 , wherein the mouth opening (43) of the channel (40, 41) is surrounded by a bead (44) whose radially outer surface (46) is formed by a surface formed during casting. Metallic housing part Claim 5 , wherein the bead (44) has an annular end face (45) with a width greater than zero, which has arisen during casting. Metallic housing part claim 6 , wherein the outer edge of the end face (45) is rounded. Metallic housing part Claim 5 , 6 or 7 , wherein the channel (40, 41) is a machined circular cylindrical bore and wherein in particular the radially inner surface of the bead has been formed by the machining. Metallic housing part (14) according to a preceding claim, wherein it is a housing part (14) of an axial piston machine (10) and has two working connections (A, B) on the outside and two openings (19, 20) on the inside, one of which is connected to the one Working port (A) and the other is connected to the other working port (B), and wherein the cavity (29, 30) into which the channel (40, 41) opens, in the fluid path between a working port (A, B) and an opening (19, 20). Hydraulic axial piston machine (10), in particular hydraulic axial piston machine (10) of bent-axis construction, with a metallic housing part (14) according to a preceding patent claim. Casting core (25) for casting a metallic housing part (14) according to one of patent claims 1 until 8th , wherein it has a circumferentially closed depression (50) in one surface.

Images