EP1775467A1 - Switchable eccentric drive and stirring device with switchable radial piston pump - Google Patents

Abstract

The arrangement has an eccentric shaft (3) with an eccentric section (7) with an eccentric sleeve mounted on it so as to be rotatable with respect to the sleeve by an angle of less than 360 degrees, preferably less than or equal to 180 degrees. It has a stop arrangement (15) that limits the rotation of the eccentric sleeve relative to the eccentric section. An independent claim is also included for a radial piston pump.

Description

The invention relates to a switchable eccentric drive with an eccentric shaft, wherein the eccentric shaft has an eccentric eccentric to a rotational axis of the eccentric shaft arranged eccentric and a radial piston pump according to the independent claim 13th

Eccentric drives for radial piston pumps or other assemblies that are to be placed in an oscillating motion have long been known. They are simple, inexpensive to produce and extremely reliable.

A disadvantage of these eccentric drives is that their eccentricity is determined constructively. As a result, the flow rate of a radial piston pump is coupled directly to the speed of the eccentric shaft. Furthermore, it is impossible because of the eccentricity defined by design, to achieve a zero promotion of the radial piston pump with rotating eccentric shaft.

From the DE 41 22 486 A1 is an adjustable eccentric drive according to the preamble of claim-1 known. In this eccentric the stroke of two pump elements is known adjusted by the fact that the eccentric disc is rotated relative to the eccentric shaft by means of a hydraulic actuator and a transmission element designed as a leaf spring. This type of adjustment is relatively expensive.

The invention is based on the object to provide a switchable eccentric, which allows different eccentricities and at the same time has a simple structure.

This object is achieved with a switchable eccentric having an eccentric shaft, wherein the eccentric shaft has an eccentric eccentric to an axis of rotation of the eccentric shaft eccentric portion, wherein on the eccentric an eccentric sleeve is arranged and wherein the eccentric sleeve relative to the eccentric portion by an angle of less than 360 °, is preferably rotatable by an angle less than or equal to 180 °, solved with the characterizing features of claim 1.

Advantages of the invention

The inventive combination of an eccentric shaft with an eccentric portion and an eccentric sleeve, it is possible to change the stroke of the eccentric sleeve in dependence on the direction of rotation of the eccentric shaft. This is due to the fact that in a first direction of rotation of the eccentric shaft, the eccentricity of the eccentric portion and the eccentricity of the eccentric sleeve add, while subtracting in the opposite direction of rotation. This also means that the aforementioned eccentricities can cancel in one direction of rotation, so that sets a zero promotion of the driven of the eccentric shaft pump element. In this constructive design of the switchable eccentric has the function of a simple freewheel, but it is much easier to produce manufacturing technology than conventional freewheels.

If the eccentricities of the eccentric portion and the eccentric sleeve are not the same size, it is possible to set a first delivery stroke in a first direction of rotation and to change the delivery stroke by changing the direction of rotation of the eccentric shaft. This makes it possible, at the same speed of the eccentric shaft to realize different flow rates of driven by the eccentric shaft pump elements. As a result, the switchable eccentric drive is thus suitable for flow control.

In order to ensure that in both directions of rotation of the eccentric shaft, the eccentric sleeve occupies a defined position relative to the eccentric portion of the eccentric shaft, stop means according to the invention are provided, which limit the rotation of the eccentric sleeve relative to the eccentric portion.

Advantageously, the stop means may comprise a pin and a circular arc-shaped groove cooperating with the pin or a shoulder cooperating with the pin.

This makes it possible in the simplest way that the eccentric sleeve is taken in a first position relative to the eccentric portion of the eccentric portion when the eccentric shaft is driven in a first direction of rotation.

Furthermore, this can be achieved in the simplest way that the eccentric sleeve assumes a second position relative to the eccentric portion when the eccentric shaft is driven in the opposite direction.

Alternatively, it is of course also possible that the stop means comprise a claw, as it is known from a dog clutch, which cooperates with a circular arc-shaped groove or a shoulder.

It is inventively possible to attach the pin or the claw to the eccentric shaft and provide the circular arc-shaped groove in the eccentric sleeve. It is also possible to provide the circular arc-shaped groove or the shoulder in the eccentric shaft and to arrange the pin or the claw on the eccentric sleeve.

Depending on the application, it may be advantageous that the eccentricity of the eccentric portion is equal to the eccentricity of the eccentric sleeve. Alternatively, it is also possible that the eccentricity of the eccentric portion is smaller or larger than the eccentricity of the eccentric sleeve.

The switchable eccentric drive according to the invention is particularly suitable for generating an oscillating movement, in particular for driving a radial piston pump.

Furthermore, it is possible according to the invention that the eccentric shaft is coupled to a further consumer, in particular a stirring blade of an agitator. This makes it possible, when driving the eccentric shaft in a first direction of rotation to drive both the impeller and the radial piston pump and to drive when changing the direction of rotation of the eccentric shaft only the impeller while zero promotion of the radial piston pump. This can be done according to the invention without switchable coupling between eccentric shaft and radial piston pump, which brings significant advantages in terms of manufacturing and assembly costs and manufacturing costs.

With a zero promotion of the radial piston pump of the impeller can ensure that the homogeneity of a lubricant that is promoted by the radial piston pump when needed, is maintained.

Further advantages and advantageous embodiments of the invention are the following drawings, the description and the claims removable. All features described in the drawing, the description and the claims may be essential to the invention both individually and in any combination.

drawing

Figur 1

eine Seitenansicht eines erfindungsgemäßen schaltbaren Exzenterantriebs,

Figuren 2 und 3

Schnitte entlang der Linie A-A durch den schaltbaren Exzenterantrieb und

Figur 4

ein Ausführungsbeispiel eines erfindungsgemäßen schaltbaren Exzenterantriebs, bei dem eine Radialkolbenpumpe mit mehreren Pumpenelementen und ein Rührwerk von der Exzenterwelle angetrieben werden.

Show it:

FIG. 1

a side view of a switchable eccentric drive according to the invention,

FIGS. 2 and 3

Cuts along the line AA through the switchable eccentric and

FIG. 4

An embodiment of a switchable eccentric drive according to the invention, in which a radial piston pump with a plurality of pump elements and a stirrer are driven by the eccentric shaft.

Description of the embodiments

FIG. 1 shows a longitudinal section through a housing 1, which may be, for example, a pump housing of a radial piston pump. In the housing 1, an eccentric shaft 3 is rotatably mounted. A rotation axis of the eccentric shaft 3 is provided with the reference numeral 5 in FIG. The eccentric shaft 3 has an eccentric section 7. The eccentricity of the eccentric portion 7 with respect to the axis of rotation 5 is indicated in Figure 1 with e ₁ . At the eccentric portion 7 of the eccentric shaft 3, an eccentric sleeve 9 is rotatably mounted.

The eccentric sleeve 9 has a circular outer contour, as shown for example in FIGS. 2 and 3. Eccentrically to a central axis 11 of the eccentric sleeve 9, a bore 13 in the eccentric sleeve 9 is present. The bore 13 has the same diameter as the eccentric portion 7 of the eccentric shaft 3 and serves as a bearing of the eccentric sleeve 9 on the eccentric 7. The eccentricity of the bore 13 with respect to the central axis 11 of the eccentric sleeve 9 is indicated in Figure 1 with ez. In Eccentricity e _{1 of} the eccentric 7 and the eccentricity e _{2 of} the eccentric sleeve. 9

In the eccentric shaft 3, a pin 15 is provided, which engages in an arcuate groove 17 in the eccentric sleeve 9. The groove 17 extends concentrically to the bore 13 in the eccentric sleeve 9 and comprises an angle of about 180 °. The groove 17 and the pin 15 have the function of a rotation angle limit and a stop. They ensure that the eccentric sleeve 9 is rotatable only by a certain angle relative to the eccentric portion 7. Furthermore, with the aid of the pin 15 and the groove 17, a torque between the eccentric shaft 3 and the eccentric sleeve 9 can be transmitted.

As soon as the end of the groove 17 comes into contact with the pin 15, the relative movement between the eccentric shaft 3 and the eccentric sleeve 9 is terminated and it is transmitted torque from the eccentric shaft 3 on the eccentric sleeve 9.

If, for example, a piston 19 of a radial piston pump rests on the outer diameter of the eccentric sleeve 9 and is held by a spring, not shown, in contact with the eccentric sleeve 9, the piston 19 of a radial piston pump can be set by rotating the eccentric shaft 3 in an oscillating motion.

FIG. 2 shows a section along the line AA according to FIG. 1, the eccentric shaft 3 being rotated in the counterclockwise direction. In this illustration, the circular arc-shaped groove 17 is clearly visible. In the direction of rotation shown in Figure 2 by an arrow 21 of the pin 15 locks the eccentric sleeve 9 relative to the eccentric shaft 3 in the position shown in Figure 2. simultaneously the drive torque is transmitted from the eccentric shaft 3 to the eccentric sleeve 9.

With each revolution of the eccentric shaft 3, the piston 19 performs an oscillating movement, which is indicated by a double arrow 23 from. In this case, the stroke H of the piston 19 (H = 2 x (e ₁ + e ₂ ).

In the embodiment shown in Figure 1 and 2, the eccentricity e _{1 of} the eccentric portion 9 is the same size as the eccentricity e _{2 of} the eccentric sleeve 9. However, this need not always be so.

When the direction of rotation of the eccentric shaft is reversed, as shown in Figure 3, the pin 15 moves to the opposite end of the groove 17. As a result, the eccentric sleeve 9 rotates by 180 ° relative to the eccentric shaft 3 with the result that the eccentricity Subtract e ₁ of the eccentric section 7 and the eccentricity e _{2 of} the eccentric sleeve 9. Thus, the stroke H of the piston 19 in the direction of rotation of the eccentric shaft 3 in the clockwise direction (H = 2 x (e ₁ - e ₂ )).

Because in the embodiment shown in Figures 1 to 3 e ₁ = e ₂ , the eccentric sleeve 9 is in the position shown in Figure 3 concentric with the axis of rotation 5 of the eccentric shaft 3, so that no eccentricity on the contact surface between the eccentric sleeve 9 and piston 19 occurs. As a result, the stroke H = 0, and as a result, the piston 19 performs no rotation despite the rotation of the eccentric shaft 3 from.

In other words: in the position of the eccentric sleeve 9 shown in FIG. 3 relative to the eccentric shaft 3 fall the axis of rotation 5 of the eccentric shaft 3 and the central axis 11 of the eccentric sleeve 9 together.

In this structural embodiment of the eccentric drive according to the invention whose function is comparable to that of a freewheel.

It goes without saying that it is also possible to make the eccentricities e ₁ and e ₂ different from one another, so that depending on the direction of rotation of the eccentric shaft two different strokes H of the piston 19 are achieved. In one case, H = 2 x (e ₁ + e ₂ ) applies to the stroke H of the piston 19, while in the other direction of rotation H = 2 x (e ₁ -e ₂ ). This structural design can be used to change the flow rate of the radial piston pump at a constant speed by reversing the direction of rotation of the eccentric shaft 3.

FIG. 4 shows an application example of a switchable eccentric drive according to the invention. About a geared motor 25, the rotatably mounted in the pump housing 1 eccentric shaft 3 is driven. At the eccentric portion 7 of the eccentric shaft 3, as explained in detail with reference to Figures 1 to 3, an eccentric sleeve 9 is provided. The eccentric sleeve 9 drives the pistons (not shown) of two oppositely arranged pump elements 27. In the extension of the eccentric 7 a cap 28 is provided, which serves on the one hand to fix the eccentric sleeve 9 in the axial direction and on the other hand to drive an agitator 29 of a designated in its entirety by the reference numeral 31 agitator. It goes without saying that the cap 28 is arranged coaxially to the axis of rotation 5 of the eccentric shaft, so that the or Impeller 29 describe a circular path which is concentric with the axis of rotation 5.

This arrangement is particularly advantageous if in certain operating conditions of lubricating the medium contained in the agitator 31 is to be stirred, for example, to lead out air bubbles from the fluid, without at the same time promote the pump elements 27. Sometimes, with the agitator blade 29, the medium contained in the agitator 31 should be homogenized without the pump elements 27 promoting the radial piston pump.

If a promotion of the pump elements 27 is desired, the direction of rotation of the eccentric shaft 3 and the gear motor 25 is reversed, so that the eccentricities e ₁ and e ₂ add and the promotion of the pump elements 27 begins according to, as has been explained in detail with reference to FIG 2 , At the same time, the impellers 29 are also driven by the drive of the pump elements 27, so that even in this operating state stirring of the conveying medium located in the agitator 31 is ensured. If desired, the impellers 29 may be configured to have a stirring action that is rotational direction dependent.

Claims (14)

Switchable eccentric, with an eccentric shaft (3), wherein the eccentric shaft (3) eccentrically to a rotation axis (5) of the eccentric shaft (3) arranged eccentric portion (7), wherein on the eccentric portion (7) rotatably mounted an eccentric sleeve (9) is, and wherein the eccentric sleeve (9) relative to the eccentric portion (7) by an angle of less than 360 °, preferably by an angle less than or equal to 180 ° is rotatable, characterized in that stop means (15, 17) are vohanden, which limit the rotation of the eccentric sleeve (9) relative to the eccentric portion (7). Switchable eccentric drive according to claim 1, characterized in that the stop means comprise at least one pin (15) and at least one with the pin (15) cooperating circular arc-shaped groove (17) or with the pin (15) cooperating paragraph. Switchable eccentric drive according to claim 2, characterized in that the stop means comprise at least one claw and at least one cooperating with the claw circular arc-shaped groove (17) or cooperating with the claw paragraph. Switchable eccentric drive according to claim 2 or 3, characterized gekennzeichet that the pin (15) or the claw on the eccentric shaft (3) is fixed, and that the groove (17) or the shoulder in the eccentric sleeve (9) is provided. Switchable eccentric drive according to claim 2 or 3, characterized in that the groove (17) or the shoulder in the eccentric shaft (3) is provided, and that the pin (15) or the claw is fixed in or on the eccentric sleeve (9) , Switchable eccentric drive according to one of the preceding claims, characterized in that the eccentricity (e ₁ ) of the eccentric portion (7) is equal to the eccentricity (e ₂ ) of the eccentric sleeve (9). Switchable eccentric drive according to one of claims 1 to 5, characterized in that the eccentricity (e ₁ ) of the eccentric portion (7) is smaller or larger than the eccentricity (e ₂ ) of the eccentric sleeve (9). Switchable eccentric drive according to one of the preceding claims, characterized in that the eccentricity (e ₁ ) of the eccentric portion (7) and the eccentricity (e ₂ ) of the eccentric sleeve (9) during a rotation of the eccentric shaft (3) in a first direction of rotation or partially add. Switchable eccentric drive according to one of the preceding claims, characterized in that the eccentricity (e ₁ ) of the eccentric portion (7) and the eccentricity (e ₂ ) of the eccentric sleeve (9) during a rotation of the eccentric shaft (3) in a second direction of rotation or subtract partially. Switchable eccentric drive according to one of the preceding claims, characterized in that the eccentricity (e ₁ ) of the eccentric portion (7) and the eccentricity (e ₂ ) of the eccentric sleeve (9) for Generation of an oscillating movement, in particular for driving a piston pump, is used. Switchable eccentric drive according to one of the preceding claims, characterized in that the eccentric shaft (3) is coupled to a further consumer, in particular an agitator blade (29) of an agitator (31). Radial piston pump with at least one pump element (27), characterized in that the at least one pump elements (27) are driven by a switchable eccentric drive according to one of the preceding claims. Radial piston pump according to claim 13, characterized in that an agitator blade (29) of a agitator (31) is provided, and that the agitator blade (29) is rigidly coupled to the eccentric shaft (31). Radial piston pump according to any one of claims 13 or 14, characterized in that the eccentric shaft (3) by a motor, preferably by an electric motor and particularly preferably by a geared motor (25) is driven.

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