DE102018001725A1 - connection device - Google Patents

Abstract

A connecting device, comprising a base body, which has at least two connection units (28, 30) provided with different topographies and functions, which are integrally connected to one another, and which is designed as an original or formed part on its outer surfaces (52, 64, 66, 68 , 78-82) is at least partially machined, is characterized in that at least one outer surface (82) of the one connection unit (28) left unprocessed and is designed as a possible attack surface for the attack of a at least about an axis pivotable holding device that at least one Outer surface (64, 66) of the other terminal unit (30) is processed by the number more than the number of machined outer surfaces (52) of the one connection unit (28), and that these each have a more machined outer surface (64, 66) perpendicular or in a predeterminable angle to at least a part of the machined outer surfaces (52) of the one Anschlusseinh eit (28) extends, which are arranged on opposite sides of a connection unit (28) lying at least partially parallel to each other.

Description

The invention relates to a connecting device, comprising a base body having at least two connection units provided with different topographies and functions, which are integrally connected to each other, and which is designed as a master or forming part machined on its outer surfaces at least partially machined.

Such a connection device is used for example in hydraulic units, which are used as compact units in various types of lifting and lifting equipment for the actuation of lifting cylinders. WO 2009/156017 A1 discloses a hydraulic unit, in particular for the supply of conveying and lifting equipment with hydraulic fluid, with a device main axis end-side tank and attached thereto functional components, the at least one hydraulic pump and a connector body with a valve device and a conduit arrangement for suction and return of hydraulic fluid has or to the tank. The hydraulic unit is designed as a so-called turning unit, in which the inlet end of the suction line of the line arrangement is disposed within the tank at a position at which during operation of the unit with vertical main axis and during operation of the unit with the vertical inclined, preferably vertical, main axis which is the cause of the liquid in the tank.

Another hydraulic unit, especially for the supply of conveying and lifting equipment with hydraulic fluid is out DE 10 2015 008 837 A1 known. In this hydraulic power unit with a tank located at the end with respect to a device main axis and functional components attached thereto, which consist of at least one hydraulic pump and a connection body and an electric motor for driving the hydraulic pump, the connection body is composed of at least one structural unit and at least one further structural unit, wherein the one structural unit is at least partially accommodated in the further structural unit. Here, preferably, the one structural unit made of a metal material, such as aluminum material, as a die-cast or forged part and the further structural unit made of a plastic material, such as glass fiber reinforced polyamide material.

The preparation of the connecting device or the connection body is time consuming and costly. The machining of the designed as a master or forming part basic body is typically carried out in several processing steps, wherein the main body is held and processed in several positions by re-clamping on a processing machine by means of corresponding holding devices or collets.

The object of the invention is to simplify the production of a connection device without restricting its functionality, in particular by reducing the number and complexity of the production steps.

This object is achieved by a connecting device with the features of claim 1 in its entirety, by a hydraulic pump unit with the features of claim 11 in its entirety and by a method having the features of claim 12 in its entirety. Advantageous embodiments of the invention are the subject of the dependent claims.

According to the invention, at least one outer surface of the one connection unit is left unprocessed and designed as a possible engagement surface for the engagement of a holding device pivotable about at least one axis, wherein at least one outer surface of the other connection unit is processed more in number than the number of processed outer surfaces of the one connection unit, and wherein these each have a more machined outer surface perpendicular or at a predeterminable angle to at least a portion of the machined outer surfaces of the one connection unit, which are arranged on opposite sides of a connection unit at least partially parallel to each other.

The embodiment of the connection device according to the invention allows the basic body to be completely machined in only one clamping of a machine arrangement, for example in a cutting machine tool, wherein the holding device as workpiece holder rests defined on the at least one non-machinable contact surface on the base body. Advantageously, the main body is a forged or cast blank as a forming or Urformteil. The geometry of the at least two terminal units forming the base body is selected such that in one clamping of the base body all exterior surfaces to be machined are accessible from only one processing side of the machine and all connection bores and receptacles for connection lines and control valves are connected by associated, preferably machining, Processing steps can be introduced into the body. The main body can be obtained in the context of a forming process also from an extruded profile.

Topography in the sense of the invention means the three-dimensional shape design or the geometry of the respective connection unit. This is with their faces according to the present connection options arbitrarily conceivable, but the faces are part of an overall geometry whose fictitious outer contour forms, for example, a cuboid or a plate, which are known in this respect with cuboid or plate-shaped topography. The respective connection unit is selected depending on the configuration of an associated hydraulic pump unit as well as the attachment and installation of the associated components, such as a tank unit, a motor unit and a pump unit and associated control valves, demand-optimized. Conveniently, the connection and attachment of a motor unit, a pump unit and / or a tank unit of a connection unit and the connection and attachment of control valves and control lines of the other terminal unit spatially associated. The two connection units and the respective outer surfaces provided on them are selected and configured to suit individual requirements. The at least partially mutually parallel, typically two machined outer surfaces having a connection unit preferably serves to form a support member. Preferably, the more machined outer surfaces having other terminal unit serves to form a control unit.

In a preferred embodiment of the connection device according to the invention, the topography of one connection unit is plate-shaped and that of the other connection unit is cuboid, wherein the cuboid topography at one point of the unworked left outer surface of a connection unit, which is released for a possible attack of the holding device, in the other connection unit so integrally passes that the cuboid topography protrudes on at least one side of the plate-shaped topography with a predetermined projection. This results in the advantage of a particularly compact and stable, suitable for the formation of a hydraulic unit structure of the connecting device.

The terminal unit having a plate-like topography is generally used as a carrier part, wherein on one side, typically in the normal installation position above, the motor unit and on another side, typically below, the tank unit and the pump unit are arranged. In this preferred embodiment of the invention, the unprocessed outer surface of the one connection unit is given by an outer surface following the outer peripheral contour of the plate-shaped topography. The plate-shaped topography may have a rectangular, preferably square, elliptical or circular cross-section, however, any further cross-sectional shapes are conceivable. Preferably, however, a substantially circular cross-section of a cylinder is given as the plate-shaped topography for the connection unit.

In the assembled state of the hydraulic unit, the other connection unit adjoining the untreated outer surface of the connection unit with its parallelepiped topography projects beyond the composite of the tank unit, connection device and motor unit on its side. In this way, arranged in the other connection unit control valves and control terminals are easily accessible from the outside and arranged to save space in a central location.

In a further preferred embodiment of the connection device according to the invention, the connection unit with the plate-shaped topography with its oppositely arranged outer surfaces serves as a functional part for receiving a motor unit or for receiving a pump unit, which is preferably integrated in a tank unit, wherein the other connection unit the cuboid topography serves as a functional part of the at least partial reception of control valves. The frontally opposite outer surfaces of a connection unit with the plate-shaped topography are particularly preferably formed substantially flat. This facilitates the installation and attachment of the motor unit and the pump unit on the body. Expediently, structuring, such as specially shaped depressions or receptacles, forming surface sections within the respective topography and as a component thereof are provided on the respective outer surface adjacent to the planar surface sections.

Particularly preferably, the one terminal unit with its plate-like topography forms an at least partially cylindrical part of the basic body, wherein a center recess is provided concentrically concentrically with this cylindrical outer contour and the one connecting unit, which is provided by a drive shaft of the motor unit, preferably in the form of an electric motor Drive the pump unit is configured as a pressure supply means durchgreifbar. A connection device configured in this way can be arranged in a particularly simple manner on a hydraulic unit which is substantially cylindrical as a whole, wherein preferably the motor unit which has a connection unit with the plate-shaped topography and the tank unit has approximately the same outside diameter. Due to the formed in the associated connection unit center recess can be the Shaft drive of the motor unit for the hydraulic pump safely and centrally lead in the connection device and extends through the tank housing, protected from possible damage, into the tank inside. This results in the further advantage of a particularly simple and secure embodiment of a hydraulic pump unit equipped with the connecting device according to the invention.

The connecting device designed according to the invention is characterized in particular by the fact that all processing steps for machining the base body can be carried out in only one working direction with the cutting machining tool. Here, the different processing positions "from the front, from the back and the side" each by a pivoting movement of the pivotable about at least one axis holding device which engages and holds the body at the unprocessed left attack surface during the entire processing, taken. Due to the one clamping alignment errors are excluded and errors, as they can otherwise occur during re-tightening avoided. The spatial arrangement and design of the individual outer surfaces and the topographies of the individual connection units are chosen such that all connection and control lines and installation spaces for associated control valves can be introduced through corresponding holes in machining in the body. The associated fluid-carrying branches and intersections result from the introduction of different partial holes from different directions in the respective terminal unit of the body. By the associated pivoting movement of the holding device as a workpiece holder for the main body in the corresponding processing positions to be machined outer surfaces are preferably positioned perpendicular to the one processing direction. The machining direction is preferably via the feed axis of a rotationally driven tool, such as a drill, milling cutter, etc., specified.

In a further preferred embodiment of the connecting device according to the invention run between the plate-shaped and the cuboid topography and at the point of transition between the two topographies in the base connecting bores, which open with their free ends on the outer surfaces of the respective terminal unit. The connection bores each have a connection bore part running in one connection unit and a further connection bore part extending in the other connection unit. For introducing the respective connection bore, at least two processing steps, one bore in the one connection unit and a further bore in the other connection unit, are required, wherein the two bores introduced into the base body and correspondingly the associated pivot positions of the holding device for introducing the bores into the base body a predetermined, for example, vertical, angle to each other.

In a further preferred embodiment of the connecting device according to the invention, a connecting bore of the pressure supply of a consumer with fluid under pump pressure and another, at least partially separated from the one connecting hole and branches off from this bore is the return of fluid from the consumer to the tank. The connection bore extends from an outer surface at the one connection unit via the location of the transition between the two topographies to an outer surface of the other connection unit. Expediently, the bore part assigned to the connection point for pressure supply and return is introduced into the base body from an outer surface of the other connection unit extending at an angle of preferably 45 ° to the machined outer surface of the one connection unit. It is understood that the holes may have the same or different bore diameter. Particularly preferably, the bores or bore parts have a stepped profile in the end regions assigned to the respective outer surface.

Advantageously, a receptacle for a pressure relief valve is provided at a location between the connecting holes of the pressure supply and return, which engages through an outer surface of the other terminal unit, which extends perpendicular to at least one machined outer surface of a connection unit in the present case. It is further advantageous that in the other connection unit in the connection bore, which serves the pressure supply, a receptacle for a check valve opens, which passes through an outer surface of the other terminal unit, which extends parallel to at least one machined outer surface of a connection unit. In a further preferred embodiment of the invention is at another point between the communication holes of the pressure supply and return for a further valve group, which preferably has an electromagnetically actuated proportional valve or other hydraulic valve, a receptacle provided which engages through the outer surface of the other terminal unit which parallel extends to at least one machined outer surface of a connection unit.

The number and arrangement of the outer surfaces of the other terminal unit, which form the control block for the hydraulic unit with their cuboid topography, is selected such that the Valve installation spaces, formed by recordings, and the control lines, formed by connecting holes, together with associated intersections in one direction and in a setting of an associated chip tool can be introduced into the body. In this case, the holding device holding the base body assumes at least three, preferably four, pivoting positions, wherein the outer surfaces to be machined are aligned perpendicular to the working direction and machined by the cutting tool.

A special embodiment of the control block formed by the connection device is achieved in that pressure supply and return together share a connection point which emerges on an outer surface of the other connection unit, which at a predetermined angle, preferably of 45 °, to at least one machined outer surface of the one Connection unit runs. It should be noted that a part of the bore for the formation of the connecting bore part for the return during operation of the associated hydraulic unit closed, as is without function. While the one connection unit which accommodates the motor unit, the pump unit and the tank unit only has this receiving or carrier function, all components and associated installation spaces for the hydraulic control are formed in the typically laterally arranged other connection unit. Due to the one-piece design of the base body with the one connection unit and the at least one other connection unit, the arrangement of a separate control block on the receiving or carrier part can be omitted.

The invention further relates to a hydraulic pump unit with a connection device according to the invention, wherein an electric motor unit on one side and a pump unit, which is preferably integrated in a tank unit, are mounted on the other side of the one connection unit, and wherein at least one control valve for operating the Aggregate is included in the recordings of the other connection unit.

The invention further relates to a method for producing a connection device according to the invention, wherein by means of a pivotable about at least one axis holding device which an unprocessed outer surface of a connection unit is gripped to by a pivoting operation, for example, 180 ° on various, a machining from only one working direction out in at least three, preferably four, to enable pivotal positions, and thereby to edit the outer surfaces of two terminal units for the later recording of a motor-pump unit together with at least one control valve. Pivoting operations around larger angles than 180 ° are possible.

The inventive method allows processing of the base body for the connecting device in a clamping of the body, wherein the individual positions for processing of outer surfaces are taken by an associated pivoting movement of the holding device with the base body arranged therein. Processing from only one working direction results in a reduction of complexity and a further saving of time and expense. The main body for the connecting device according to the invention is particularly preferably designed such that after the mechanical machining in the context of the inventive method, only the control valves must be used to obtain a ready-connection device for a hydraulic pump unit. Typical areas of application of such hydraulic power units are machine tools or lifting / lowering applications, such as industrial trucks or lifting platforms.

Further advantages and features of the invention will become apparent from the figures and the following description of the drawing. The above-mentioned and the further cited features can be implemented individually or in any desired combinations on a connecting device according to the invention, a hydraulic pump unit according to the invention or a method according to the invention. The features shown in the figures are purely schematic and not to scale.

• 1 ein Ausführungsbeispiel eines erfindungsgemäßen hydraulischen Pumpenaggregats in Seitenansicht;
• 2 das hydraulische Pumpenaggregat nach der 1 in einer Draufsicht von oben;
• 3 einen hydraulischen Schaltplan für das Pumpenaggregat nach den 1 und 2;
• 4 die im hydraulischen Pumpenaggregat nach den 1 und 2 verwendete Anschlussvorrichtung in vergrößerter, perspektivischer Ansicht;
• 5a bis 5d die Anschlussvorrichtung nach der 4 aus unterschiedlichen Blickrichtungen; und
• 6 einen Grundkörper für die Aufnahme der erfindungsgemäßen Anschlussvorrichtung nach den 4 bis 5d in vier voneinander verschiedenen Schwenkpositionen zur Veranschaulichung der einzelnen Bearbeitungsschritte.

Show it:

• 1 An embodiment of a hydraulic pump assembly according to the invention in side view;
• 2 the hydraulic pump unit after the 1 in a plan view from above;
• 3 a hydraulic circuit diagram for the pump set after the 1 and 2 ;
• 4 in the hydraulic pump unit after the 1 and 2 used connection device in an enlarged, perspective view;
• 5a to 5d the connecting device after the 4 from different perspectives; and
• 6 a main body for receiving the connecting device according to the invention according to the 4 to 5d in four different pivot positions to illustrate the individual processing steps.

1 shows in a side view a hydraulic pump unit 10 with a tank unit 12 and a motor unit 14 , In the direction of the 1 seen, is in the upper part of the motor unit 14 a housing cover 16 with a rectangular labeling field arranged on the right side eighteen arranged. The tank unit 12 , the engine unit 14 and the housing cover 16 give the substantially cylindrical shape of the hydraulic pump unit 10 in front. The pump unit 10 further comprises a connection device 20 which are within the scope of their first connection unit 28 sandwiched between the tank unit 12 with a pump unit received in its tank housing 42 and the motor unit 14 is arranged. At the tank unit 12 is still a filler neck 22 for fluid, such as hydraulic oil, arranged, which with a lid 14 is closed.

The first connection unit 28 the connection device 20 is, as already stated, between the tank unit 12 with the pump unit 42 and the motor unit 14 arranged and thus forms a carrier part for all three units 12 . 14 . 42 out. A second connection unit 30 is on the side of the composite tank unit 12 , first connection unit 28 and motor unit 14 arranged and on a radial outer surface of the first connection unit 28 in one piece with the formation of the main body of the connection device 20 connected to this. In the 1 is the addressed compound of the two connection units 28 . 30 through the filler neck 22 with lid 24 covered. The electric motor is by means of two electrical connection points 26a . 26b connectable to a power supply in the usual way. The presentation of the 1 further illustrates that the first terminal unit 28 the function of a carrier part and the second connection unit 30 perceives the function of a control part with inserted valves. At the second connection unit 30 are as valves of the control part, a pressure relief valve 32 , a spring-loaded check valve 34 , an electromagnetically operated directional control valve 36 and a flow control valve 38 . 48 arranged. Further, to the control part is a measuring device 40 connected as a pressure sensor. The aforementioned control valves 32 . 34 . 36 . 38 and 48 are in corresponding receptacles of the second connection unit 30 used and in 1 only partially visible.

The 2 shows the hydraulic pump unit 10 out 1 in the top view from above. About the circular cross section of the motor unit 14 which is the cross section of the first connection unit 28 the connection device 20 and the cross section of the tank unit 12 corresponds project in the radial direction, the electrical connection means 26a . 26b , the filler neck 22 with the lid 24 as well as the second connection unit 30 the connection device 20 with the control valves 32 to 38 and 48 as well as the measuring device 40 in front. At the second connection unit 30 is still a consumer connection P for supplying a hydraulic consumer (not shown) by the hydraulic pump unit 10 intended.

The 3 shows a circuit diagram of the pump set 10 with the usual hydraulic symbols for pertinent circuit diagrams. The electric motor unit 14 drives the pump unit 42 to remove fluid from the tank unit 12 to the consumer P to promote. Between the tank unit 12 and the pump unit 42 is a filter element 44 arranged. To prevent unwanted return of fluid from the consumer port P to the tank unit 12 To prevent, is in the of the pump unit 42 to the consumer connection P leading fluid line the check valve 34 arranged, the spring loaded in his direction of the pump unit 42 directed closed position is shown.

The measuring device 40 measures the at the consumer connection P Pending fluid pressure and gives its determined measurements to a control and computer unit, not shown, which the electromagnetically actuated proportional valve 36 controls. In the shown a valve or neutral position locks the directional control valve 36 under the influence of its valve spring the fluid path between the check valve 34 and the consumer connection P to the tank side with the tank unit 12 from. In the other valve position, however, opens the directional control valve 36 and returns the return from the consumer connection P to the tank unit 12 free.

In the pertinent return are further between the directional control valve 36 and the tank unit 12 a flow control valve 38 . 48 arranged. In a further fluid connection between the pressure supply and the pump unit 42 and the return is the pressure relief valve 32 arranged over which in case of too large, impermissible pressure increase fluid back into the tank unit 12 to be led. For ventilation of the tank unit 12 is at the filler neck 24 another filter element 44 ' with connected throttle as ventilation filter (in the 1 and 2 not shown) to form a pertinent outlet 46 connected.

4 shows a perspective view of the connection device 20 , illustrating the topographies and functions of the two terminal units 28 . 30 the holes are shown in dashed lines. The first connection unit 28 basically has one plate-shaped topography and a circular cross section. A circular edge surface 50 is part of a first outer surface 52 the connection unit 28 , wherein the first outer surface 52 a coaxial with the cross section of the connection unit 28 trained center recess 54 surrounds. At the first outer surface 52 are two mounting holes 56a . 56b for fastening the pump unit 42 (see. 3 ), an opening 58 as supply or pump connection P and a tank connection T intended. The first outer surface 52 is only in the respective opening 56a . 56b . 58 . P . T surrounding areas as well as on the edge area 50 Plan lying in a plane on the outside of the first connection unit 28 educated. In the remaining sections of the in 4 Outside shown is the topography of the first connection unit 28 provided with a recess.

The opening 58 and the tank port T each form one end of a communication bore 60 . 60 ' or another hole 62 . 62 ' , The holes 60 . 60 ' and 62 . 62 ' each run in two connection units 28 . 30 the connection device 20 , Here is a first hole part 60 ' . 62 ' in the first connection unit 28 and a second bore part 60 . 62 in the second connection unit 30 running trained and introduced there each by machining. The connection hole 60 . 60 ' serves the pressure supply from the tank unit 12 (see. 3 ) over to the opening 58 to be connected pump unit 42 (see. 3 ) to the consumer connection P , which at the second connection unit 30 is provided. The further drilling 62 . 62 ' serves a return from the consumer connection P to the tank connection T , where the consumer connection P also for the return R the connection point represents, as in the hydraulic circuit diagram of 3 illustrated. The hydraulic fluid flows from P . R about the construction components 74 . 62 and 62 ' to T.

At the other second connection unit 30 are a second outer surface 64 , a third outer surface 66 and a fourth outer surface 68 , a fifth outer surface 78 and a sixth outer surface 80 educated. The second outer surface 64 is arranged at an angle of about 45 ° to the vertical and has the load port P and the return R associated junction as the end of the connecting hole 60 . 60 ' on. Another opening 76 for forming the second bore part 62 the further drilling 62 . 62 ' is on the third outer surface 66 provided, which also from a horizontally arranged first recording 70 for a control valve is penetrated. The machined third outer surface 66 and the unprocessed sixth outer surface 80 are each arranged vertically.

At the in 4 shown top of the second connection unit 30 are two unprocessed, the fourth and the fifth outer surface 68 . 78 arranged horizontally. Here is the fourth outer surface 68 in an upper horizontal plane, which is substantially the first outer surface 52 the first connection unit 28 corresponding to the receiving level, and the fifth outer surface 78 arranged in a lower horizontal plane. The fourth outer surface 68 forms in this respect an upper end surface of the first shot 70 , In the second connection unit 30 are two more vertically aligned, a second and a third recording 72 . 74 educated. These two shots 72 . 74 grab horizontal outer surfaces 86 . 88 (see. 5c . 5d ) of the other second connection unit 30 ,

The in the description of the 4 designations vertically and horizontally refer to the representation shown in the figure. It is understood that the mounting position of the connection device 20 and the actual arrangement of the outer surfaces 52 . 62 . 66 . 68 . 78 . 80 . 86 . 88 can deviate from the horizontal and vertical directions. At the first connection unit 28 is radially outer circumferential a seventh outer surface 82 provided, which remains unprocessed and insofar forms a possible attack surface for a holding device.

In the 5a to 5d is the in 4 enlarged connection device shown 20 shown from four different perspectives. The 5a and 5b show, according to the 4 , the side of the pump associated with the first outer surface 52 the first connection unit 28 , In the presentation of the 5a is the connection device 20 rotated in such a way that in the second connection unit 30 formed openings are not visible. From the second connection unit 30 are in 5a the untreated outer surfaces 68 . 78 and 80 visible. 5b shows one opposite 5a rotated about 180 ° view of the connection device 20 so that the on the vertical outer surface 66 trained openings 70 . 76 the second connection unit 30 are clearly visible. Through the middle recess 54 in the first connection unit 28 is a drive shaft of the motor unit 14 (see. 1 and 3 ) feasible to a pump unit 42 (see. 3 ), wherein the pump unit 42 in the tank unit 12 (see. 1 ) is integrated.

The 5c and 5d show the engine unit 14 (see. 1 ) associated side of the first connection unit 28 and thus the installation position of the connection device 20 in the hydraulic pump unit 10 (see. 1 and 2 ). In the 5c and 5d are another unprocessed, vertically aligned eighth outer surface 84 and two machined, ninth and tenth outer surfaces 86 . 88 the second connection unit 30 shown. The ninth outer surface 86 is from the second shot 72 , the tenth outer surface 88 from the third recording 74 penetrated. While in 5c only the two shots 72 . 74 are visible, shows 5d additionally the first recording 70 and the further opening 76 on the third outer surface 66 and the consumer port P for connecting bore 60 on the second outer surface 64 the other second connection unit 30 , The first connection unit 28 has an eleventh outer surface on the pump side 90 on, on which mounting holes 56c . 56b and 56e for fixing the motor unit 14 (see. 1 ) are provided and which an edge surface 50 ' to create a housing of the motor unit 14 having.

6 illustrates the processing steps for the production of in the 1 . 2 . 4 . 5a to 5d shown connection device 20 , One around a rotation axis R swiveling, in 6 not shown holding device is located on the unprocessed seventh outer surface 82 (see. 4 ) of the first connection unit 28 on. The holding device is along the axis of rotation R moved into the four pivoted positions shown. In a first pivot position of the holding device, the first connection unit 28 arranged vertically with the plate-shaped topography and is along a working direction A on the first outer surface 52 processed. This represents the first processing step B1 dar. In the first processing step B1 be on the first outer surface 52 the mounting holes 56a . 56b , the opening 58 , the tank connection T as well as the middle recess 54 in the first connection unit 28 brought in. The also vertically oriented, fourth and fifth outer surface 68 . 78 the second connection unit 30 stay unedited. The said holding device may be formed from a holding or collet or by another recording, in the fixed state on the annular outer surface 82 in a detachable way attacks. Unless from the outside surface 82 As an unprocessed surface is mentioned, this does not exclude that outside of the described processing method, whatever kind of processing can take place, for example, as part of a coating process. The editing sections B1 to B4 can also be done in any order.

In a second pivot position of the holding device is the first connection unit 28 aligned horizontally and the second connection unit 30 becomes on the third outer surface 66 processed. In the second processing step B2 be on the third outer surface 66 the first shot 70 and the further opening 76 and the second bore part 62 the further drilling 62 . 62 ' in the second connection unit 30 brought in. The working direction A of the second processing step B2 corresponds to that of the first processing step B1 ,

Starting from the second pivoting position, the holding device is further moved in a clockwise direction along the axis of rotation R, approximately at an angle of 45 °, this angle of inclination of the second outer surface 64 the second connection unit 30 opposite the first outer surface 52 the first connection unit 28 equivalent. Due to the thus selected third pivot position, the second outer surface 64 vertically aligned and is in a third processing step B3 along the same working direction A processed. In the third processing step B3 becomes on the second outer surface 64 the connection point P . R and the second connection bore part 60 the connection hole 60 . 60 ' in the second connection unit 30 brought in.

In the fourth and last pivot position of the holding device is the first connection unit 28 again vertically aligned and is at the eleventh outer surface 90 along the working direction A processed. Continue in the fourth processing step B4 the ninth and tenth outer surfaces 86 . 88 the second connection unit 30 processed. In the fourth processing step B4 be on the eleventh outer surface 90 the mounting holes 56c . 56d . 56e in the first connection unit 28 as well as on the ninth outer surface 86 the second shot 72 and on the tenth outer surface 88 the third recording 74 in the second connection unit 30 brought in.

6 illustrates that in four processing steps B1 to B4 two outer surfaces 52 . 90 the first connection unit 28 and four outside surfaces 64 . 66 . 86 . 88 the second connection unit 30 to be edited. Hereby all processing steps take place B1 to B4 along the horizontally directed working direction A. In particular, no re-clamping of the arranged in the pivotable holding device body for the connecting device 20 required along the entire machining sequence. It is understood that the cutting machining tools used (not shown) relative to the workpiece held movable at least in three mutually perpendicular Zustellachsen and are evidently actuated by the processing or machine tool.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been 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.

Cited patent literature

• WO 2009/156017 A1 [0002]
• DE 102015008837 A1 [0003]

Claims (12)

Connecting device, comprising a base body which has at least two connection units (28, 30) provided with different topographies and functions, which are integrally connected to one another, and which is designed as a master or forming part on its outer surfaces (52, 64, 66, 68, 78-90) is at least partially machined, characterized in that at least one outer surface (82) of a connection unit (28) left unprocessed and is designed as a possible attack surface for the attack of at least one axis (R) pivotable holding device that at least an outer surface (64, 66, 86, 88) of the other connecting unit (30) is processed by the number more than the number of machined outer surfaces (52, 90) of the one connecting unit (28), and that each have a more machined outer surface ( 64, 66) perpendicular or at a predeterminable angle to at least a part of the machined outer surfaces (52, 90) of the one A Connection unit (28) extends, which are arranged lying on opposite sides of a connection unit (28) at least partially parallel to each other. Connection device according to Claim 1 , characterized in that the topography of one terminal unit (28) is plate-shaped and that of the other terminal unit (30) is cuboid, and that the cuboid topography at a position of the unprocessed outer surface (82) of a terminal unit (28), for a possible Attack of the holding device is released in the other terminal unit (30) so integrally passes over that the cuboid topography protrudes on at least one side of the plate-shaped topography with a predetermined projection. Connection device according to Claim 1 or 2 , characterized in that the connection unit (28) with the plate-shaped topography on its oppositely arranged outer surfaces (52, 90) as a functional part of receiving a motor unit (14) or a pump unit (42), preferably in a tank unit (12) integrated is, serves, and that the other connection unit (30) with the cuboid topography as a functional part of the at least partially receiving control valves (32-38, 48) is used. Connecting device according to one of the preceding claims, characterized in that the one terminal unit (28) with its plate-shaped topography forms an at least partially cylindrical part of the base body, and concentrically to this cylindrical outer contour and the one terminal unit (28) by a center recess (54) is provided, which by a drive shaft of the motor unit (14), preferably an electric motor, for driving the pump unit (42) is designed tangible. Connecting device according to one of the preceding claims, characterized in that extending between the plate-shaped and the cuboid topography and at the location of the transition between the two topographies in the base connecting bores (60, 60 ', 62, 62'), with their free ends on the outer surfaces (52, 64, 66) of the respective connection unit (28, 30) open. Connecting device according to one of the preceding claims, characterized in that a connecting bore (60, 60 ') of the pressure supply of a consumer (P) with fluid under pump pressure and another, from the one connecting hole (60, 60') at least partially separated and from this branching bore (62, 62 ') serves for the return of fluid from the consumer (P) to the tank (T). Connecting device according to one of the preceding claims, characterized in that at a position between the connecting holes of pressure supply (60, 60 ') and return (62, 62') is provided a receptacle (70) for a pressure relief valve (32) having an outer surface (66) of the other terminal unit (30), which extends perpendicular to at least one machined outer surface (52, 90) of the one connection unit (28). Connecting device according to one of the preceding claims, characterized in that in the other connection unit (30) in the connecting bore (60, 60 '), which serves the pressure supply, a receptacle (72) for a check valve (34) opens, which has an outer surface ( 86) of the other connection unit (30), which runs parallel to at least one machined outer surface (52, 90) of the one connection unit (28). Connecting device according to one of the preceding claims, characterized in that at another point between the connecting bores of the pressure supply (60, 60 ') and return (62, 62') for a further valve group (36, 38), preferably an electromagnetically actuated proportional valve (36), a receptacle (74) is provided, which passes through the outer surface (86) of the other connection unit (30), which runs parallel to at least one machined outer surface (52, 90) of the one connection unit (28). Connecting device according to one of the preceding claims, characterized in that pressure supply (60, 60 ') and return (62, 62') share a common connection point (P) on an outer surface (64) of the other connection unit (30) emerges, which extends at a predeterminable angle, preferably of 45 °, to at least one machined outer surface (52, 90) of the one connection unit (28). Hydraulic pump unit with a connection device (20) according to one of the preceding claims, characterized in that an electric motor unit (14) on one side and a pump unit (42), which is preferably integrated in a tank unit (12), on the other side a connection unit (28) are mounted, and that at least one control valve (32-38, 48) for operating the unit (10) in the receptacles (70-74) of the other terminal unit (30) is accommodated. Method for producing a connecting device (20) according to one of Claims 1 to 10 , characterized in that by means of a pivotable about at least one axis (R) holding means an unprocessed outer surface (82) of a connection unit (28) is gripped to a maximum of 180 ° or greater machining by a pivoting operation of only one working direction ( A) in at least three, preferably four or more, to allow pivotal positions, and thereby the outer surfaces (52, 64, 66, 86-90) of the two terminal units (28, 30) for the later receiving a motor-pump unit (14, 42) in addition to at least one control valve (32-38, 48) to edit.

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