EP0987445A1 - Driving and guiding system for moving a load - Google Patents

Abstract

The driving and guide device has drive pistons (10), with no piston rods, in a pressure cylinder (12), with at least one power transmission part (20) projecting through a slot in the cylinder wall sealed by flexible sealing bands (10). There is a roll body fitting to take the load and/or to guide the drive piston within the cylinder cavity (11) or on one of the pistons (10).

Description

The invention relates to a drive and guide device for a load to be moved, with one in a pressure medium cylinder driven by pressure medium, rodless Drive piston, at least one through a longitudinal slot in the cylinder wall to the outside projecting power transmission part is associated with a the longitudinal slot in the cylinder wall axially on both sides of the power transmission part sealing, flexible sealing tape and with a load-bearing and / or the piston leading, arranged in the housing of the pressure medium cylinder Rolling element arrangement.

In a drive and known from DE 43 32 547 A1 This type of guide device is a load-bearing device Rolling element arrangement in a parallel to the cylinder bore of a pressure medium cylinder arranged longitudinal channel arranged in the housing of the pressure medium cylinder. By this parallel arrangement of the drive piston and rolling element arrangement becomes the housing of the pressure cylinder overall very large volume, and it's not just one with the rolling element assembly and connected to the outside of the Outstanding power transmission part required but also another power transmission part between the drive piston and the rolling element arrangement. As a result, the entire device is complex and complicated and expensive.

It is therefore an object of the present invention in creating a drive and guidance device in which the housing of the pressure cylinder with less Cross section can be built, and the overall simpler, can be realized more cost-effectively and compactly.

This object is achieved in that the Rolling element arrangement within the cylinder space of the pressure medium cylinder is arranged in or on the drive piston.

The advantage of the arrangement according to the invention is in particular in that in the housing of the pressure cylinder only a single longitudinal channel is required, namely the cylinder bore itself. This leads to a substantial more compact design. Because the drive piston or its Rolling element arrangement absorbs the load and opposes it supports the cylinder wall, are external load or force-absorbing guides are no longer required. It there is therefore no longer any danger that an external Leadership transfers forces to the drive piston that impair its function. After all, there is only one slot penetration required in the housing of the pressure cylinder, in Contrary to the two required slot bushings in the state of the art. The construction of the power transmission part this simplifies considerably. About that in addition, the entire assembly is easier and cheaper.

By the measures listed in the subclaims are advantageous developments and improvements of facility specified in claim 1 possible.

The rolling element arrangement expediently has a large number of wheels rolling on the cylinder wall, rollers and / or balls.

In an advantageous first embodiment, the Rolling element arrangement of several axially arranged one behind the other to the direction of force of those acting on the piston Force inclined in opposite swivel directions Wheels or castors. These are expediently alternating oppositely inclined so that one is possible uniform force absorption takes place.

In a second advantageous embodiment, the Rolling element arrangement several axially arranged one behind the other Pairs of wheels or castors whose axes of rotation are vertical to the direction of movement of the drive piston and perpendicular to the direction of force of those acting on the piston Force are arranged.

The rolling elements of the rolling element arrangement are in corresponding Recesses of the drive piston or one with this connected bearing arrangement rotatably and protrude from these recesses in those places where the drive piston is loaded by the load against the Cylinder wall presses. This will be a cheap one Force absorption through a relatively small number of rolling elements reached.

To stabilize the piston position and to accommodate The rolling element arrangement advantageously has tilting moments Way at least one in the drive piston or one connected to this bearing arrangement rotatably mounted Supporting rolling element, which is on a to the direction of force opposite force acting on the drive piston Rolls the point on the cylinder wall.

The rolling element arrangement is advantageously between the both sealing the drive piston on both sides Piston sealing areas arranged. The Rolling element arrangement also two interconnected areas have the bearing arrangement, each of which Area of the two-part power transmission part arranged is. The is preferably at the two end regions Bearing arrangement for the rolling element arrangement, one piston sealing area each the drive piston arranged so that a symmetrical modular system that can be assembled as required Order is present.

The at least one connected to the drive piston Power transmission part can be in an advantageous embodiment designed as a suspension device for the load be and protrude vertically downwards from the longitudinal slot. In such an embodiment, for example a curtain or a sliding wall or window arrangement can be attached pneumatically along a long distance can be moved.

To pivot the piston and an undesirable Rub the power transmission part in the area of the longitudinal slot to prevent this power transmission part one caused by swiveling the drive piston force-absorbing slide or roller bearing guide. This can preferably arranged in the region of the longitudinal slot his.

Fig. 1

eine Antriebs- und Führungseinrichtung als Ausführungsbeispiel der Erfindung in einer Längsschnittdarstellung,

Fig. 2

eine Querschnittsdarstellung gemäß der Schnittlinie A-A in Fig. 1,

Fig. 3

eine Querschnittsdarstellung gemäß der Schnittlinie B-B in Fig. 1,

Fig. 4

eine perspektivische Darstellung eines Bereichs des aus zwei symmetrischen Bereichen bestehenden Antriebskolbens gemäß Fig. 1 und

Fig. 5

eine zur Fig. 3 alternative Ausführung mit parallelen Rädern am Antriebskolben.

Embodiments of the invention are shown in the drawing and explained in more detail in the following description. Show it:

Fig. 1

a drive and guide device as an embodiment of the invention in a longitudinal sectional view,

Fig. 2

2 shows a cross-sectional illustration along the section line AA in FIG. 1,

Fig. 3

2 shows a cross-sectional representation along the section line BB in FIG. 1,

Fig. 4

a perspective view of a portion of the drive piston consisting of two symmetrical areas according to FIGS. 1 and

Fig. 5

an alternative to Fig. 3 version with parallel wheels on the drive piston.

In the first embodiment shown in FIGS. 1 to 4 is a rodless drive piston 10 in a cylinder chamber designed as a cylinder bore 11 of an elongated pressure medium cylinder 12 pneumatically movable, in principle also a hydraulic Actuation is possible. In Fig. 1 is only the right one End region of the pressure medium cylinder 12 shown, and the drive piston 10 is in the right Stop position on the right cylinder cover 13.

A first pressure medium connection 14 in the central region of the Cylinder cover 13 is used to move the Drive piston 10 to the left (according to the representation of Fig. 1), and a second pressure medium connection 15 at the top The area of the cylinder cover 13 is parallel to the cylinder space 11 in the housing 15 of the pressure medium cylinder 12 guided pressure line 17 with the not shown connected to the second end region of the cylinder space 11 and serves to move the drive piston 10 in the opposite direction, i.e. to the right. Hereby can both pressure medium connections 14, 15 on the same Cylinder cover 13 may be arranged.

The pressure medium cylinder 12 is a so-called slot cylinder formed, that is, the cylinder space 11 over its entire length with a longitudinal slot 18 connected to the outside outside of the pressure medium cylinder 12. Used for sealing in a manner known per se a flexible sealing tape 19 which in the two cylinder end caps 13 is anchored, and that the longitudinal slot 18 to the cylinder chamber 11 axially on both sides of a power transmission part 20 seals that with the drive piston 10 is connected and through the longitudinal slot 18 extends outwards. In the area of this power transmission part 20 is the sealing tape 19 sliding through Guide channels 21 of the drive piston 10 out and runs in part along the power transmission part 20 opposite back, as shown in Fig. 1 is.

The drive piston 10 has a in the central area two-part bearing arrangement 22 for as rollers or wheels 23 trained rolling elements, which is also in two parts Power transmission part 20 on the two-part Bearing arrangement 22 is fixed. On both sides of the bearing arrangement 22 is a piston seal 24 provided piston sealing region 25, that is connected to the power transmission part 20.

The wheels 23 are in corresponding slot recesses 26 the bearing assembly 22 arranged. The eight wheels 23 of the Embodiments are alternating according to FIGS. 3 and 4 45 ° to the vertical in the opposite direction Sloping directions and one behind the other in the longitudinal direction arranged. The vertical direction corresponds to FIG. 3 the direction of force by a not shown Load applied to the drive piston 10, the Swiveling of the wheels 23 always with respect to the direction of force takes place so that the wheels 23 symmetrical to Support the force on the inner wall of the cylinder chamber 11 can. They only stick out on one Side out of the slot recesses 26 on which the Support should take place.

3 has a roller bearing 27 and is circumferentially with a rubber-like or plastic-like soft tread 28 provided to the cylinder wall not to damage. The roller bearings 27 are each on one in a transverse bore 29 to the slot recess 26 arranged bolts 30 stored.

There is one in each of the two piston sealing regions 25 Support wheel 31 rotatably mounted, corresponding to the wheels 23 is constructed and stored so that the same or equivalent Provide components with the same reference numerals are. This support wheel 31 protrudes against the direction of force, 2 above, from the drive piston 10 or the respective piston sealing area 25 and possibly takes occurring tilting moments. Through these training wheels 31 becomes the guide of the drive piston 10 in the cylinder space 11 improved. In principle, the number of support wheels 31 also be higher, also inclined arrangement is possible. It is also possible to use such support wheels 31 alternatively or in the area of the bearing arrangement 32 to attach additionally.

The two piston sealing areas 25 each have one Concentric blind bore 32 towards the free end, which in Mouth area is provided with an annular seal 33. These blind holes 32 serve in a manner known per se for end position damping. The drive piston 10 reaches one of its two end positions, intervenes shortly before concentric, tubular, on the respective cylinder cover 13 attached attenuator 34 in the Blind bore 32 a. The air it contains can pass through escape a throttle device, not shown, so that a dampening effect occurs.

The sealing tape 19 seals the longitudinal slot 18 from the inside forth, that is, from the side of the cylinder space 11. It has a trapezoidal cross section for this purpose, which corresponds to the Shape of the slot opening pointing towards the cylinder space 11 is adjusted. In addition, this longitudinal slot 18 in a manner known per se also by an external Sealing tape 35 sealed to prevent contamination can get inside. This outer Sealing tape 35 is similar in the two Cylinder end caps 13 fixed and is in the area of Drive piston 10 through corresponding channels 36 through passed through this. In the exemplary embodiment runs this outer sealing tape 35 essentially between the Bearing arrangement 22 and the power transmission part 20th

1, the bearing arrangement 2 consists of two Areas 22a and 22b, which are connected via a connecting link 37 are interconnected. Each of these areas 22a and 22b is with a portion 20a and 20b of the two-part Power transmission part 20 connected. The burden is very elongated, for example a curtain, a door, a Partition or the like. So a very long connecting link 37 may be provided so that the two areas 22a and 22b of the bearing arrangement 22 or the two piston sealing areas 25 are far apart and a total of one very long "piston" is formed. On the other hand, it is also possible to provide only a one-piece bearing arrangement 22, that on both sides with a piston sealing area 25 is provided. In case of moving a very elongated load then, in such a case, several can such a drive piston, for example two drive pistons 10 may be provided.

In Fig. 4 is only one half of the drive piston in perspective 10 shown. In order to achieve an arrangement according to FIG. 1 to get two such halves so over the connecting link 37 connected that the two Point piston sealing areas 25 to the outside. With a one-piece Execution of the bearing assembly 22 becomes a second Piston sealing area 25 added to the arrangement according to FIG. 4.

The power transmission part 20 is for hanging attachment a load. About lateral and / or frictional forces between the power transmission part 20 and the boundary walls to prevent the longitudinal slot 18 can in Area of this longitudinal slot 18 or outside one Sliding or rolling bearing guidance can be provided, which in the exemplary embodiment is not shown. Can also such warehouse management may be required if the Direction of force of the load exerted by the load to be moved Force does not pass through the longitudinal slot 18.

In the second embodiment shown in FIG. 5 occur instead of the angular to the direction of force offset wheels 23 now consisting of two wheels 38 each Pair of wheels, the wheels 38 parallel to Direction of force are aligned, that is, their axis of rotation runs perpendicular to the direction of force and perpendicular to the cylinder longitudinal direction. On one in a corresponding way modified bearing assembly 39 are mounted bolts 40 Two such wheels 38 on both sides by means of roller bearings 27 stored. Several such pairs of wheels are in the longitudinal direction of the cylinder arranged one behind the other. The running areas 41 of the wheels 38 are in accordance with the curvature of the Cylinder chamber 11 curved.

In a modification of the illustrated embodiments can also other rolling elements instead of wheels 23, 38 kick, for example rollers or balls. Furthermore can instead of the circular cross section through the Drive piston 10 and the cylinder chamber 11 another Cross-section, for example an oval or polygonal Cross-section. Such piston cross sections lead to a non-rotating drive piston 10, in which case the Rolling elements can be arranged so that even with asymmetrical Load those exerted on the cylinder wall Forces can be absorbed by these rolling elements.

2, 3 and 5, the housing 16 of the pressure cylinder 12 with mounting holes 42 and longitudinal grooves 43 provided. The mounting holes 42 serve for example for fastening the cylinder cover 13, while the longitudinal grooves 43 for fastening the pressure cylinder 12 itself and / or for the attachment of Sensor elements or the like serve. Additional longitudinal channels 44 can be used to carry lines or print media serve.

Claims (13)

Drive and guide device for one too moving load, with one in a pressure cylinder driven by pressure medium, rodless Drive piston, the at least one through a longitudinal slot Power transmission part protruding outwards in the cylinder wall is assigned with a the longitudinal slot in the cylinder wall axially on both sides of the power transmission part sealing, flexible sealing tape and with a load-bearing and / or the piston leading, Rolling element arrangement arranged in the housing of the pressure medium cylinder, characterized in that the rolling element arrangement (23; 38) within the cylinder space (11) of the pressure medium cylinder (12) in or on the drive piston (10) is arranged. Drive and guide device according to claim 1, characterized in that the rolling element arrangement (23; 38) a plurality of on the cylinder wall of the cylinder space (11) rolling wheels, rollers and / or balls having. Drive and guide device according to claim 1 or 2, characterized in that the rolling element arrangement (23) several axially one behind the other, to the direction of force the force acting on the piston (10) opposite swivel directions inclined wheels or Owns roles. Drive and guide device according to claim 3, characterized in that the wheels or rollers of the Rolling element arrangement (23) alternately opposite are inclined. Drive and guide device according to claim 1 or 2, characterized in that the rolling element arrangement (38) several axially arranged pairs of wheels or castors whose axes of rotation are vertical to the direction of movement of the drive piston (10) and perpendicular for the direction of force on the drive piston (10) acting force are arranged. Drive and guide device according to one of the Claims 3 to 5, characterized in that the rolling elements the rolling element arrangement (23; 38) in corresponding Recesses (26) of the drive piston (10) or one with this connected bearing arrangement (22; 29) rotatable are stored and from these recesses (26) protrude from the places where the drive piston (10) by the load against the cylinder wall of the Cylinder chamber (11) presses. Drive and guide device according to one of the preceding claims, characterized in that the Rolling element arrangement (23; 38) at least one in the drive piston (10) or a bearing arrangement connected to it (22; 29) has supporting roller bodies (31) mounted, the one on the direction of the force on the Drive piston (10) acting opposite force Place on the cylinder wall of the cylinder space (11) passes on. Drive and guide device according to one of the preceding claims, characterized in that the Rolling element arrangement (23; 38) between the two Drive piston (10) sealing on both sides Piston sealing areas (25) is arranged. Drive and guide device according to claim 8, characterized in that the rolling element arrangement (23; 38) two interconnected areas (22a, 22b) of the Bearing arrangement (22), on each of which an area (20a, 20b) of the two-part power transmission part (20) is arranged. Drive and guide device according to claim 8 or 9, characterized in that at both end regions the bearing arrangement (22; 29) for the rolling element arrangement (23; 38) each have a piston sealing area (25) of the drive piston (10) is arranged. Drive and guide device according to one of the preceding claims, characterized in that the at least one connected to the drive piston (10) Power transmission part (20) as a suspension device for the Load is formed and vertically down from the Longitudinal slot (18) protrudes. Drive and guide device according to one of the preceding claims, characterized in that the Power transmission part (20) by pivoting the Drive piston (10) occurring force-absorbing sliding or Has rolling bearing management. Drive and guide device according to claim 12, characterized in that the sliding or rolling bearing guide is arranged in the region of the longitudinal slot (18).

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