EP2799726A1 - Section-damped plunger cylinder - Google Patents

Abstract

It is described a plunger whose stroke is partially executed executable sections. The invention is characterized in that the pressure medium connection (4) is arranged in a region between a first and a second end position of the piston unit (6) on the cylinder tube (1), and that the pressure medium connection (4) is arranged in sections by the piston (7). is coverable, and that the piston (7) in a position of a Hubabschnittsweise overlap of the pressure medium connection (4) forms a throttle gap (12), wherein the throttle gap (12) formed by a gap between the piston (7) and the cylinder tube (1) and wherein through the throttle gap (12) a throttling of a pressure medium flow between the pressure chamber (5) and the pressure medium connection (4) can be provided.

Description

The invention relates to a plunger cylinder, as a single-acting cylinder, with a hubabschnittsweise attenuation.

From the prior art cylinder are already known, consisting of a cylinder tube and a piston unit arranged therein displaceable, which have a cushioning, so that the movement of the piston unit slowed down before reaching their respective end position by appropriate means or devices and thus damped.

A damped cylinder is for example in block letters DE 28 30 416 A1 discloses, wherein the working cylinder in a portion of the cylinder tube wall has a tapered channel, via which a pressure medium from the piston rod space can flow only throttled when the piston moves in the region of its end position on the corresponding portion of the cylinder tube wall.

Another working cylinder is from publication DE 199 52 375 A1 as a double-acting pneumatic cylinder of a device for applying adhesive labels on packaged goods known. The pneumatic cylinder also has a piston unit, consisting of a piston and a piston rod, which is braked near its end positions.
In this case, the piston rod chamber is acted upon retraction of the piston unit with pressure, wherein the pressure medium flows from the piston chamber via a first port, which is located in front of the end position of the piston.
In a further retraction of the piston unit, the connection is closed by the piston, so that the pressure medium can only flow throttled over a, arranged in the bottom closure part of the pneumatic cylinder, damping unit.

The disadvantage of such solutions is, in particular, that they only allow a cushioning of a piston unit; while a damping of the piston unit in the area between the respective end positions is not realized by these approaches.

In order to effect such a damping of a piston unit of a working cylinder between the respective end positions, solutions are also known from the prior art.

Such a solution is for example in block letters EP 0 616 882 B1 described. The subject of the document is a method for controlling a joint or toggle press, wherein a press ram is to perform a first rapid movement, a second decelerated movement and then a third rapid movement.
The control of the speed of the press ram takes place in this case by means of gear-technical elements which interactively controlled with a plurality of hydraulic directional control valves.

The disadvantage of the device described for providing a damping of a piston unit between the respective end positions is, in particular, that they are very complex and therefore relatively expensive to implement.

The object of the present invention is therefore to provide a plunger cylinder with a section damping of a piston unit, wherein the damping acts between the respective end positions of the piston unit and wherein the plunger cylinder is simple and inexpensive to produce.

The object is achieved by a partially damped plunger cylinder with the features listed in claim 1. Preferred developments emerge from the subclaims.

An inventive, partially damped plunger cylinder, also referred to below as a plunger cylinder, has a cylinder tube with a bottom closure part and a guide closure part and with a pressure medium connection and a pressure chamber, wherein from the pressure chamber, a pressure medium can be received, which can be introduced via the pressure medium connection in the pressure chamber.

According to the invention, the bottom closure part and the guide closure part can be designed both as separate components, which are connected to the cylinder tube by a suitable pressure-sealing connection method, or as integral components of the cylinder tube.

The plunger cylinder according to the invention further comprises a piston unit, which is axially guided in the cylinder tube.
The piston unit has a piston and a piston rod, wherein both elements are connected to each other or may optionally be formed in one piece and being separated by the piston of the pressure chamber of the cylinder tube in a first working space and a second working space. According to the invention, the first working space is a piston space and the second working space is a piston rod space.

In addition, the piston unit according to the invention has a connection channel through which the two working chambers of the plunger cylinder are pressure-connected.
In the present case, the connecting channel represents a component of the pressure chamber and, in this connection, causes the pressure medium to move from the piston chamber into the piston rod chamber when the piston unit is extended or retracted. or from the piston rod space in the piston chamber, can flow.
The connecting channel can be formed for example by an axial and a radial bore in the piston rod, which engage at their ends within the piston rod.

The plunger cylinder according to the invention is characterized in that, for the first, the pressure medium connection is arranged in a region between a first and a second end position of the piston unit on the cylinder tube and the second of the pressure medium connection hubabschnittsweise by the piston can be covered.
A Hubabschnittsweise coverage of the pressure medium connection is always here when the piston passes during the extension or retraction at a certain stroke of the piston unit, the pressure medium connection.

In such a position of the hubabschnittsweise overlap of the pressure medium connection is formed by means of the piston according to the invention from a throttle gap, which must pass through the pressure medium inlet or outflowing pressure medium through the pressure medium connection.

According to the invention, the throttle gap is formed by a gap between the piston and the cylinder tube.
Such a gap can be provided in a particularly uncomplicated way by a corresponding adaptation of the outer diameter of the piston relative to the inner diameter of the cylinder tube and the resulting annular gap between piston and cylinder tube.

In this way, as a technological advantage of the invention, with the simple means of a reserve throttle gap, a throttling of a pressure medium flow provided between the pressure space and the pressure medium connection.
By means of the throttle gap thus the volume flow of the pressure medium in or out of the pressure chamber is regulated and provided as a particular advantage, only in the region of overlap of the pressure medium connection by the piston and thus limited to a defined stroke section, a damping of the piston unit in the plunger cylinder. The solution according to the invention makes it possible, with simple means, to damp the stroke for a first stroke section undamped, for a subsequent second stroke section, and to perform it again damped for a third, subsequent lifting section.

In this case, the invention makes it possible to adapt the damping characteristic of a plunger cylinder according to the invention in such a way that the pressure medium connection, in the region of the damping takes place in the respective position on the cylinder tube, in which the damping of the piston unit during the stroke is desired.

It can thus be provided as a further particular advantage with low deployment effort and low cost plunger with different damping characteristics for different applications.

In addition, according to the invention there is the possibility that on the cylinder tube of a plunger cylinder several pressure medium connections are kept in different positions, of which in a customer-specific use of the plunger cylinder only each of the pressure medium connection is used, in the region of the damping is desired. The remaining pressure medium connections are sealed pressure-tight, for example by means of a plug or a suitable cover.
In this way, it is particularly advantageous that allows a plunger cylinder according to the invention with little technical effort to different Use cases with the particular desired damping characteristic can be adjusted.

In the solution according to the invention, an attenuation of the piston unit is provided both during an input and during an extension, wherein the attenuation intensity can be determined by the width of the gap between the piston and the cylinder tube.

The particular advantage lies in this solution, in particular in the simplicity of providing the throttle gap by the appropriate dimensions of the piston and cylinder tube and in the high reliability and durability.

According to an advantageous development, additional means for a reliable spacing of piston and cylinder tube and thus for a reliable dimensional accuracy of the throttle gap, held. Preferably, such a means for a spacing of the piston and cylinder tube can be formed simply by a circumferential on the piston web, which can be technologically very easy to provide in a piston as a rotating part. Such a circumferential web can also be kept immediately circumferentially on the inner wall of the cylinder tube without affecting the function, since the working chambers are pressure-connected by means of the connecting channel and between the piston and the cylinder wall no fluid flow must be ensured. The height of the circumferential ridge then corresponds to the width of the gap. Thus, even with applied to the plunger cylinder buckling loads, which could lead to lateral forces on the piston and thus to changes in the gap, the inventive hub sections attenuation can be reliably applied. A web can also be provided, for example, by means of a piston ring.

In another development, the piston has different diameters along its axial course. As a result, the damping characteristic can be influenced with particularly simple means.

If the piston is designed to be barrel-shaped, for example, at the beginning of the passage via the pressure medium connection, initially there is still a relatively high gap with a relatively low attenuation intensity resulting therefrom. In the axial center of the piston, this has the largest diameter, so that the smallest gap occurs with a correspondingly high attenuation. When the piston unit continues to travel, the piston then covers the pressure medium connection again with a higher gap; the attenuation intensity decreases again. As a result, there is a progressive damping within the damped section, and a degressive damping when the maximum intensity is exceeded.

Another example of influencing the damping characteristic by means of this development would be in a frustoconical piston design.

Fig. 1

Schnittdarstellung Plungerzylinder

näher erläutert.The invention will be described in embodiments with reference to

Fig. 1

Section view of plunger cylinder

explained in more detail.

Fig. 1 shows a plunger cylinder according to the invention according to the features of claims 1 and 2.
The plunger cylinder has a cylinder tube 1 with a bottom closure part 2 and a guide closure part 3 and a pressure medium connection 4.

When the plunger cylinder is used, a pressure medium (not shown) is led into a pressure chamber 5 of the plunger cylinder or out of the pressure chamber 5 via the pressure medium connection 4.

The plunger cylinder further comprises a piston unit 6, consisting of a piston 7 and a piston rod 8, wherein both elements are firmly connected to each other.
The piston unit 6 is guided axially in the cylinder tube 1 by the guide closure part 3, wherein a sealing element 21 in the guide closure part 3 prevents the pressure medium from escaping from the second working space 10.

The piston 7 separates the pressure chamber 5 of the plunger cylinder according to the invention in a first working space 9 and a second working space 10, wherein the first working space 9 a piston chamber and the second working space 10 constitute a piston rod space.

According to the invention, the piston unit 6 has a connection channel 11 which, as part of the pressure chamber 5, press-connects the first working space 9 and the second working space 10 to one another.

The plunger cylinder according to the invention is characterized in that the pressure medium connection 4 is arranged in a region between a first and a second end position of the piston unit 6 on the cylinder tube 1 and that the pressure medium connection 4, as in Fig. 1 shown, hubabschnittsweise by the piston 7 can be covered.
The outer diameter of the piston 7 is compared to the inner diameter of the cylinder tube 1 particularly advantageously chosen so that forms a throttle gap 12 in the hubabschnittsweise coverage of the pressure medium port 4 by the piston 7 between the piston 7 and the cylinder tube 1.

This throttle gap 12 causes at the overlap of the pressure medium port 4 by the piston 7 according to the invention, that, by the pressure medium connection 4 in the pressure chamber 5, or from the pressure chamber 5 effluent pressure medium must flow through the throttle gap 12 mandatory and thus a throttling of the Adjust existing pressure medium flow.

By throttling the pressure medium flow damping of the piston unit 6 is provided in the cylinder tube 1 as a special technological advantage of the plunger cylinder, wherein the damping acts selectively in the region of the overlap of the pressure medium connection 4 by the piston 7.

The damping acts in the exemplary embodiment Fig. 1 both during an on and in an extension of the piston unit 6, wherein the damping characteristic of a plunger cylinder according to the invention is particularly easy adaptable by an offset arrangement of the pressure medium connection 4 to the respective application.
In this context, it is inventively possible, for example, to provide a plunger cylinder with multiple connection options for the pressure medium connection 4, wherein depending on the desired damping characteristic of the pressure medium connection 4 is connected to the appropriate connection option.
The remaining connection options (not shown) are closed, for example by means of plugs.

The plunger cylinder according to the invention thus makes it possible to provide a selective damping in the region between the end positions of the piston unit 6 in the cylinder tube 1 in a particularly simple and at the same time cost-effective manner.

In a further embodiment (not shown), the piston has a circumferential ridge, whose height determines the gap dimension of the throttle gap. The web rests circumferentially on the inner circumferential surface of the cylinder tube (1) and thus guides the piston without play.

Used reference signs

1

cylinder tube

2

Bottom seal section

3

Guide closure part

4

Pressure medium connection

5

pressure chamber

6

piston unit

7

piston

8th

piston rod

9

first working space

10

second workspace

11

connecting channel

12

throttle gap

13

sealing element

Claims (3)

Sectionally damped plunger cylinder, comprising a cylinder tube (1), a bottom closure part (2), a guide closure part (3), a pressure medium connection (4) and a pressure chamber (5), from which a pressure medium is receivable, and comprising a piston unit (6) the piston unit (6) is axially guided in the cylinder tube (1) and wherein the piston unit (6) has a piston (7) and a piston rod (8), wherein the pressure chamber (5) is moved into a first working space by the piston (7) (9) and a second working space (10) is separated and wherein the first working space (9) is a piston chamber and the second working space (10) is a piston rod space and wherein the piston unit (6) has a connecting channel (11) has, by which the two working spaces (9, 10) are pressure-connected, characterized
in that the pressure medium connection (4) is arranged in a region between a first and a second end position of the piston unit (6) on the cylinder tube (1), the pressure medium connection (4) being coverable in sections by the piston (7), and in that the piston (7) in a position of a hubabschnittsweise cover of the pressure medium connection (4) forms a throttle gap (12), wherein the throttle gap (12) is formed by a gap between the piston (7) and the cylinder tube (1) and wherein through the throttle gap ( 12) a throttling of a pressure medium flow between the pressure chamber (5) and the pressure medium connection (4) can be provided. A cut-off dampener plunger cylinder according to claim 1,
characterized,
that the piston (7) are associated with means for its spacing to the cylinder tube (1). A depressed shock cylinder according to claim 1 or 2,
characterized,
that the piston (7) has in the axial extension of different diameters.

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