EP3721777A1 - Surfaces machining apparatus - Google Patents

Abstract

2.1 Such a scrubber-suction machine with a base arrangement that can be moved in a functional position on a surface to be processed, and with a guide part linked to the base arrangement for manual control of the base arrangement, is known , on which a slide body connected to the guide part can be moved linearly, which is supported on the arch guide at least in the radial direction by means of at least two support points spaced from one another along the arch guide. 2.3 Use as a floor care device

Description

The invention relates to a scrubber-suction machine with a base arrangement, which can be moved in a functional position on a surface to be processed, and with a guide part articulated on the base arrangement for manual control of the base arrangement.

A surface treatment device is generally known in the field of floor cleaning and floor care devices. The known surface treatment device is a scrubbing-suction machine which is intended for wet cleaning of floor surfaces. The scrubber-suction machine has a guide part with at least one handle. The guide part is articulated to a base arrangement which, in a functional position of the scrubber-suction machine, can be moved on a floor surface to be processed. The basic arrangement has at least one tool which can be rotated by means of a drive and a suction strip arrangement assigned to the tool. For manual control of the base arrangement, the guide part can be grasped and moved by hand by an operator.

The object of the invention is to create a scrubber-suction machine of the type mentioned at the outset, which enables improved handling compared to the prior art.

This object is achieved in that a curved guide is provided on the base arrangement, on which a slide body connected to the guide part can be moved linearly, which is supported on the curved guide at least in the radial direction by means of at least two support points spaced from one another along the curved guide. By providing the sheet guide and the slide body which can be moved linearly on the sheet guide, an improved mobility of the guide part compared to the base arrangement is achieved. In particular, the guide part can be pivoted in this way over a wide angular range with respect to the base arrangement and in this way pivoted out of a working area in a simple manner, for example. In this way, particularly simple and precise handling is achieved. Surface areas that are otherwise difficult to access can therefore be approached more easily and cleaned better. In addition, the support of the slide body by means of at least two support points spaced apart from one another along the curved guide enables an improved introduction of force and / or torque from the guide part into the base arrangement at least in the radial direction. As a result of such radial support, in particular a moment acting transversely to the radial direction, which can be brought about by an operator by means of hand forces on the guide part, can be introduced into the base arrangement as a pair of forces. In this way, a setting force acting between the base arrangement and the surface to be machined can easily and precisely influenced, provided that such an influence is desired by the operator. For example, individual areas of the basic arrangement can consequently be loaded and / or relieved in a targeted manner with respect to the surface to be machined, which can improve the achievable machining result on the one hand and the manual controllability of the basic arrangement on the other. In contrast, it has also been shown that the solution according to the invention advantageously reduces an undesired force and / or torque effect, which can otherwise be caused, for example, by pulling or pushing the guide part onto the base arrangements, for example in the form of a pitching moment. In this respect, the solution according to the invention can reduce an undesirable influence of forces acting on the guide part on the base arrangement. The basic arrangement can advantageously have at least one drive, a tool that can be rotated by means of the drive, and / or a suction strip arrangement. The guide part can advantageously be designed in the form of a handle, a handle bar, a shaft or the like. The sheet guide can advantageously form a section of the base arrangement, so that, for example, further components of the base arrangement, in particular a tool or a drive, can be arranged directly on the sheet guide. The arch guide is advantageously provided protruding upwards with respect to the vertical direction with respect to a base surface of the base arrangement, which in the functional position is arranged at least in sections opposite the surface to be processed. The arch guide can in particular have a rectangular, round or oval cross-section and be made from a flat or round material, for example. The slide body can in particular be supported with sliding and / or roller bearings on the arch guide by means of the support points. The term “support points” in the context of the invention encompasses a point, line and / or planar support. For the purposes of the invention, "along the arch guide" means arch guidance in the direction of the main extension and to that extent in the direction of an arched guide path formed by means of the arch guidance, on which the slide body is linearly movable. In addition, the direction indication "radial" refers to the arch shape or the radius of the arch guide. Further directions such as longitudinal, transverse or vertical direction relate to a coordinate system of the scrubber-suction machine, which in the functional position is arranged on a flat horizontal surface.

In an embodiment of the invention, the arch guide is curved continuously and in the same direction. In this way, functional and simple movability of the slide body on the sheet guide is achieved. The sheet guide is advantageously curved convexly with respect to a viewing direction oriented in the transverse direction. Accordingly, an apex of the sheet guide can advantageously be arranged in an upper region of the sheet guide.

In a further embodiment of the invention, the curved guide extends in the shape of a circular arc over an angle of at least largely 90 °. With such an angular extent, sufficient mobility of the guide part with respect to the base arrangement can be achieved with a simultaneously small structural volume. The arc guide can preferably be extended in the shape of a circular arc over an angle of at least largely 120 °. With such an angular extension, a further improved mobility of the guide part compared to the basic arrangement can be achieved with a moderate structural volume at the same time. Particularly preferably, the curved guide can be extended in the shape of a circular arc over an angle of at least largely 180 °. With such an angular extension, almost optimal mobility of the guide part relative to the base arrangement can be achieved. For example, the guide part can advantageously be easily pivoted from one side of the base arrangement to an opposite side without the base arrangement having to be repositioned for this purpose. In this way, the guide part can be folded down essentially flat on both sides and in this respect parallel to the surface to be machined. As a result, the base assembly can easily be steered under an obstacle or the like, for example.

In a further embodiment of the invention, the arch guide extends over the base arrangement. The curved guide can advantageously be connected to a front and a rear section of the base arrangement, so that the curved guide extends essentially over a longitudinal extension of the base arrangement.

In a further embodiment of the invention, the sheet guide is mounted on the base arrangement such that it can pivot about a pivot axis, which is at least largely in a guide plane of the sheet guide. In this sense, “guide plane” means an imaginary plane that is spanned by end points of the arch guide and a point on the arch guide arranged between these end points. In other words, the pivot axis can advantageously be oriented coaxially or parallel to an axis connecting the end points of the curved guide. In this way, an even better manual handling of the scrubber-suction machine is achieved. In particular, an on-the-spot turning of the base arrangement can be brought about while the guide part is at the same time inclined with respect to the base arrangement, that is to say folded down from the vertical direction. This is because the arch guide, together with the carriage body and the pivot axis, forms a kind of universal joint arrangement. As a result, the base arrangement can be rotated on the spot on the surface to be machined, essentially independently of the angular position of the guide part relative to the base arrangement, by means of a torque acting on the guide part.

In a further embodiment of the invention, the pivot axis extends essentially parallel to a base area of the base arrangement. In particular, the pivot axis can also be arranged directly above the base arrangement. The base area of the base arrangement is to be understood as that area which, in the functional position, is arranged at least in sections opposite the area to be processed and, in this respect, is oriented essentially parallel to it. Due to the parallel extension of the pivot axis of this type, an upright rotation of the base arrangement can be achieved even with a flat, in particular almost horizontal, angular position of the guide part with respect to the base arrangement. If the pivot axis is immediately above the base assembly, i.e. is arranged at a small distance from the surface to be processed, a low point of application of the forces that can be transmitted between the guide part and the base arrangement can be achieved. This embodiment of the invention makes it possible to further reduce an undesirable influence of moments on the base arrangement caused by the guide part. In particular, an undesired pitching moment can be reduced in this way.

In a further embodiment of the invention, the slide body has at least one support element supported in the radial direction on the curved guide, in particular in the form of a sliding or rolling element which forms at least a first of the support points. The support element can be supported in point, line and / or area form on the arch guide and to this extent form the first of the support points. The sliding element can be designed in the form of a sliding shoe, a sliding block or the like. The rolling element can be designed in the form of a spherical, roller, needle or barrel-shaped rolling element. In this respect, the curved guide can have a guide section designed to be complementary to the shape of the support element, for example in the form of a correspondingly complementary guide track, for interacting with a sliding or rolling element designed in this way. In this way, a low-friction run of the carriage body on the sheet guide is achieved. It is particularly advantageous if several support elements are arranged along the sheet guide.

In a further embodiment of the invention, the slide body has at least one counter-support element supported on the arch guide in the radial direction in opposite directions to the support element, in particular in the form of a counter-slide or counter-rolling element which forms at least a second of the support points. Accordingly, the slide body can be supported on both sides in the radial direction, or in other words: radially inward and radially outward, by means of the support element and the counter-support element on the arch guide. In this way, a couple of forces can be introduced into the arc guide, with low-friction running of the carriage body being achieved at the same time. The counter-support element can be point, line and / or flat be supported on the arch guide and in this respect form the second of the support points. The counter-sliding element can in particular be designed in the form of a sliding shoe, a sliding block or the like. The counter-rolling element can in particular be designed in the form of a spherical, roller, needle or barrel-shaped rolling element. In this respect, the arched guide can have a counter-guide section designed to be complementary to the shape of the counter-support element, for example in the form of a correspondingly complementary counter-guide track, for cooperation with a counter-slide or counter-rolling element designed in this way. In this way, a particularly low-friction run of the slide body on the sheet guide is achieved. It is particularly advantageous if several counter-support elements are arranged one behind the other along the sheet guide.

In a further embodiment of the invention, the slide body is supported on the arch guide in the lateral direction in such a way that a torque acting about a longitudinal axis of the guide part can be transmitted via the slide body to the arch guide and thus to the base arrangement. “In the lateral direction” means essentially transversely to the sheet guide and to that extent oriented essentially perpendicular to the radial direction of the sheet guide. The slide body can advantageously be supported in this way in the lateral direction by means of at least one sliding or rolling element. As a result, low-friction running of the slide body can be achieved when the base arrangement is rotated on the spot, and thus further improved handling of the scrubber-suction machine.

In a further embodiment of the invention, the curved guide has a round cross section and the slide body engages around the cross section, in particular by means of at least one bearing sleeve, at least in sections. The arch guide is preferably made from a round material and can for example have a tubular hollow or a cylindrical full cross section. The slide body engages around the cross section of the arch guide in the manner of a sleeve. For this purpose, the slide body can have at least one bearing sleeve. The bearing sleeve can extend longitudinally over essentially the entire length of the slide body, so that a bearing on the cross section of the curve guide over the entire surface is achieved along the curved guide. Alternatively, several, for example two, bearing sleeves can be provided and arranged on opposite front ends of the slide body. In this case, only a partial mounting of the slide body on the cross section is achieved along the curved guide. The bearing sleeve can for example be designed as a sliding sleeve. Of course, it is also possible for the at least one bearing sleeve to be designed as such a linear ball bearing, which is known in principle, in the form of a ball sleeve, which can also be referred to as a shaft guide, so that a roller-bearing guide of the slide body is achieved on the round cross section of the arched guide.

Fig. 1

zeigt in schematischer Seitenansicht eine erste Ausführungsform einer erfindungsgemäßen Scheuer-Saug-Maschine mit einer Basisanordnung, einer Bogenführung, einem Schlittenkörper und einem Führungsteil,

Fig. 2

in schematischer Seitenansicht eine weitere Ausführungsform einer erfindungsgemäßen Scheuer-Saug-Maschine, wobei die Bogenführung um eine Schwenkachse schwenkbeweglichen an der Basisanordnung gelagert ist,

Fig. 2a und b

jeweils in schematischer Aufsicht die Scheuer-Saug-Maschine nach Fig. 2 in einer ersten Position (Fig. 2a) und einer gegenüber der ersten Position verlagerten zweiten Position (Fig. 2b),

Fig. 3

in schematischer Seitenansicht eine weitere Ausführungsform einer erfindungsgemäßen Scheuer-Saug-Maschine, wobei das Führungsteil mittels eines Gelenkelements mit dem Schlittenkörper verbunden ist,

Fig. 4a und b

in schematischer Draufsicht (Fig. 4a) und Schnittansicht (Fig. 4b) entlang eines Schnittes A-A nach Fig. 4a einen Schlittenkörper und einen Bereich einer Bogenführung in einer ersten Ausführungsform für eine Scheuer-Saug-Maschine nach den Fig. 1 bis 3,

Fig. 5a und b

in schematischer Draufsicht (Fig. 5a) und Schnittansicht (Fig. 5b) entlang eines Schnittes B-B nach Fig. 5a einen Schlittenkörper und einen Bereich einer Bogenführung in einer weiteren Ausführungsform für eine Scheuer-Saug-Maschine nach den Fig. 1 bis 3 und

Fig. 6a und b

in einer schematischen Schnittansicht (Fig. 6a) entsprechend der Ansicht nach den Fig. 4b und 5b und einem Querschnitt (Fig. 6b) entlang einer Schnittlinie C-C nach Fig. 6a einen Schlittenkörper und einen Bereich einer Bogenführung in einer weiteren Ausführungsform für eine Scheuer-Saug-Maschine nach den Fig. 1 bis 3.

Further advantages and features of the invention emerge from the claims and from the following description of preferred exemplary embodiments of the invention, which are illustrated with reference to the drawings.

Fig. 1

shows a schematic side view of a first embodiment of a scrubber-suction machine according to the invention with a base arrangement, a bow guide, a slide body and a guide part,

Fig. 2

a schematic side view of a further embodiment of a scrubber-suction machine according to the invention, the sheet guide being mounted on the base arrangement such that it can pivot about a pivot axis,

Figures 2a and b

each in a schematic plan view of the scrubbing-suction machine Fig. 2 in a first position ( Fig. 2a ) and a second position displaced from the first position ( Figure 2b ),

Fig. 3

a schematic side view of another embodiment of a scrubber-suction machine according to the invention, the guide part being connected to the slide body by means of a joint element,

Figures 4a and b

in schematic plan view ( Figure 4a ) and sectional view ( Figure 4b ) along a section AA Figure 4a a slide body and a region of a sheet guide in a first embodiment for a scrubber-suction machine according to the Figs. 1 to 3 ,

Figures 5a and b

in schematic plan view ( Figure 5a ) and sectional view ( Figure 5b ) along a section BB Figure 5a a slide body and an area of a sheet guide in a further embodiment for a scrubber-suction machine according to the Figs. 1 to 3 and

Figures 6a and b

in a schematic sectional view ( Figure 6a ) according to the opinion of the Figure 4b and 5b and a cross section ( Figure 6b ) along a section line CC Figure 6a a slide body and an area of a sheet guide in a further embodiment for a scrubber-suction machine according to the Figs. 1 to 3 .

The scrubbing-suction machines 1, 1a and 1b according to the invention are each provided for cleaning floor surfaces.

The embodiments of scrubbing-suction machines 1, 1a and 1b according to the invention have an essentially identical design with regard to structural and functional features. Components and sections that are identical in the scrubber-suction machines 1 to 1b are provided with identical reference numerals. To avoid repetition, such identical components and sections are not explained separately in each of the embodiments. Functionally identical components and sections which, however, differ in their structural design are denoted by the same reference numerals with the addition of lowercase letters.

How based on Fig. 1 As can be seen, the scrubber-suction machine 1 has a base arrangement 2 and a guide part 3 articulated to the base arrangement 2. The basic arrangement 2 is based on Fig. 1 apparent functional position on a surface 4 to be processed. The base arrangement 2 has a surface treatment tool 6 in the form of a floor scrubbing roller which can be driven by means of a drive 5. To transmit drive forces, the drive 5 is connected to the surface machining tool 6 via a force transmission element 7 in the form of a belt drive. The drive 5 is fixed to the base arrangement 2 in a manner which is not described in detail but is known as such. The surface machining tool 6 is connected to the base arrangement 2 by means of a longitudinally extending connecting element 8. The base arrangement 2 also has a suction strip arrangement 9 assigned to the surface machining tool 6. The suction strip arrangement 9 can be provided for suctioning off a dirty water liquor that occurs during the wet cleaning of the floor surface 4. In addition, the base arrangement 2 has an end wheel 10 supported in the functional position on the surface 4 to be machined. In this context, a person skilled in the art can moreover readily understand that instead of the aforementioned parts and components, the basic arrangement can alternatively or additionally be equipped with further parts or components adapted to the respective processing purpose. For example, the base arrangement 2 can have a plate-shaped surface machining tool, which can be positioned at its end face against the surface 4 to be machined, instead of the cylindrical surface machining tool 6 positioned on its circumference against the surface 4 to be machined.

The guide part 3 is designed in the form of an elongated shaft and is provided for manual control of the base arrangement 2. For this purpose, the guide part 3 has at least its end region facing away from the base arrangement 2, which is not shown in more detail a handle for manual guidance of the scrubber-suction machine 1 by an operator. In this respect, the basic arrangement 2 can be moved and positioned on the surface 4 to be processed by a corresponding force and / or moment action by the operator via the guide part 3.

How further based on Fig. 1 As can be seen, an arch guide 11 is provided on the base assembly 2. On this sheet guide 11, a slide body 12 connected to the guide part 3 can be moved linearly along a schematically indicated guide direction 13 of the sheet guide 11. The carriage body 12 is supported on the arch guide 11 at least in the radial direction R by means of at least two support points P1, P2 spaced apart from one another along the arch guide 11. As a result of the linear movability of the carriage body 12 along the arched guide 11, the guide part 3 is arch-like from FIG Fig. 1 apparent angular position with respect to the base arrangement 2, for example in an angular position W1 and / or an angular position W2, both of which are dashed in the illustration of FIG Fig. 1 are indicated, and any number of intermediate positions can be displaced. In order to achieve such a linearly movable displaceability of the slide body 12, this is to be explained in more detail and in particular on the basis of FIG Figures 4a to 5b The obvious manner is supported by sliding and / or roller bearings on the sheet guide 11.

How further based on Fig. 1 As can be seen, the arch guide 11 is curved continuously and in the same direction and to that extent extends in the shape of a circular arc over an angle of at least largely 180 °. Regardless of this, sufficient angular mobility of the guide part 3 with respect to the base arrangement 2 can also be achieved if the curved guide 11 extends over an angle of at least largely 120 ° or at least largely 90 °.

Furthermore, the sheet guide 11 is fixed at its respective end regions arranged at the front end on a front region 15 of the base arrangement 2 or on a rear region 16 of the base arrangement 2. In this respect, the arch guide 11 extends over the base arrangement 2, in particular over its length. Here, an apex 17 of the arch guide 11 is arranged essentially in relation to a longitudinal direction L centrally between the front area 15 and the rear area 16 of the base arrangement 2.

Based Fig. 2 As a further embodiment, the scrub-suction machine 1a can be seen that, in terms of its structural design and functional configuration, essentially corresponds to the scrub-suction machine 1 according to FIG Fig. 1 matches. To avoid repetition only the differences between the scrubber-suction machine 1a and the scrubber-suction machine 1 will be discussed below.

The scrubbing-suction machine 1a differs essentially in that the sheet guide 11a is mounted on the base arrangement 2a such that it can pivot about a pivot axis 18. The pivot waxes 18 lies at least largely in a guide plane F of the arch guide 11a, which is spanned by three points arranged along the arch guide 11a, for example front and rear end points and the apex 17. For this purpose, the arch guide 11a is pivotably connected to the other components of the base arrangement 2a via a front articulation joint 19a and a rear articulation joint 19b. In this respect, the arch guide 11a can pivot, which is oriented transversely to the linearly movable displaceability of the carriage body 12 along the arch guide 11a. In this way, the curved guide 11a together with the carriage body 12 and the pivot axis 18 or the front and rear articulated joints 19a and 19b, respectively, form a type of universal joint arrangement. This type of joint arrangement enables the base arrangement 2a to be rotated on the spot by means of a torque D exerted on the guide part 3 essentially independently of the respective angular position of the guide part 3. If the torque D is, for example, based on the in Fig. 2 Applied to the guide part 3 in the direction of rotation indicated, there is a planar rotation of the base arrangement 2a about a vertical axis H in accordance with a Fig. 2 apparent direction of rotation U. Such kinematics of the scrubber-suction machine 1a is based on the Figures 2a and 2b clarified in more detail. In a based Fig. 2a In the first position shown, the base arrangement 2a is arranged essentially centered above an imaginary point P of the surface 4 to be processed. Here, the pivot axis 18 is horizontal to the surface to be processed 4 and - in relation to the plane of the drawing Figures 2a and b - aligned vertically. The arch guide 11a is opposite the imaginary vertical axis H ( Fig. 2 ) is pivoted to the right in relation to the plane of the drawing and thus assumes an angular position of approximately 45 ° with respect to the surface 4 to be processed. The slide body 12 is positioned in the area of the rear articulation joint 19b on the arched guide 11a, the guide part being inclined upwards relative to the surface 4 to be machined and - with respect to the plane of the drawing Figures 2a and b - protrudes to the bottom right. Based on the Fig. 2a apparent first position, the introduction of a torque D 'acting about the longitudinal axis of the guide part 3 results in a counterclockwise rotation of the base arrangement 2a or counterclockwise Fig. 2 apparent direction of rotation U. During this rotation, the guide part 3 remains in an essentially unchanged position with respect to the surface 4 and rotates by approximately 90 ° about its longitudinal axis. Due to the essentially unchanged position of the guide part 3 and the above-described rotation of the base arrangement 2a, the torque D 'causes a relative movement between the guide part 3 and the slide body 12 arranged on the guide part 3 opposite the base arrangement 2a and the arch guide 11a. During this relative movement, the slide body 12 moves along the arched guide 11a. The curved guide 11a, on the other hand, is tilted about the pivot axis 18 by approximately 90 ° with respect to the base arrangement. It goes without saying that the base arrangement 2 can also be rotated on the spot by more than that based on FIG Figures 2a and b visible 90 ° possible.

In addition, the pivot axis 18 extends essentially parallel to the surface 4 to be processed. It is of course also possible to arrange the pivot axis 18 at an angle with respect to the surface 4 to be processed.

The based Fig. 3 apparent scrubbing-suction machine 1b differs from the scrubbing-suction machines 1 and 1a according to the Fig. 1 or FIG. 2 essentially to the effect that the guide part 3b is connected to the slide body 12 by means of a joint element 20. The joint element 20 has a joint axis 21. The hinge axis 21 is oriented essentially parallel to the guide plane F of the arched guide 11, in which the slide body 12 can be moved linearly. The joint element 20 is designed in the form of an articulated joint, so that the guide part 3b with respect to the plane of the drawing Fig. 3 can be pivoted out of or into this. In this way, the curved guide 11, together with the slide body 12 and the joint element 20, forms a kind of universal joint arrangement. Regardless of the structural differences to the joint arrangement of the scrubber-suction machine 1a according to Fig. 2 this joint arrangement essentially has a corresponding kinematic functionality. In this respect, the base arrangement 2 of the scrubber-suction machine 1b is rotatable on the spot in the same way as the base arrangement 2a of the scrubber-suction machine 1a.

Based on Figures 4a to 6b Further details relating to the structural design of the support and linearly movable displaceability of the slide body 12 on the arch guide 11 can be seen.

A first embodiment of this support is based on Figures 4a and 4b evident. For the purpose of better illustration, the slide body 12a is only indicated there by dashed lines. The slide body 12a has a support element 22a supported in the radial direction R on the arched guide 11a. The support element 22a is designed in the form of a rolling element 23. The rolling element 23 has a barrel-shaped shape and is supported in the radial direction R against a guide track 24 of the curved guide 11a which is on the inside with respect to the radial direction R. In this way, the support element 22a forms the support point P1 of the carriage body 12a. Instead of the barrel-shaped configuration of the rolling element 23, a spherical, conical, needle-shaped or similar configuration can of course also be provided. Furthermore, the slide body 12a has a counter-support element 25a supported in the radial direction R in the opposite direction to the support element 22a on the curved guide 11a. The counter-support element 25a is configured as a rolling element 23, corresponding to the support element 22a, and is supported on a guide surface 26 of the arched guide 11a which is on the outside in relation to the radial direction R. In this respect, the counter-support element 25a forms a second of the support points P1, P2, namely the support point P2.

In particular, in order to achieve play-free and essentially direction-independent support of the slide body 12a, it has further rolling elements 23, which are each supported along the radial direction R on areas of the curved guide 11a facing away from the support element 22a or the counter-support element 25a. To this extent, these two rolling elements 23 form a further support element 27a or a further counter-support element 28a.

In addition, the slide body 12a is supported in the lateral direction L, ie transversely to a main extension of the arch guide, on the arch guide 11a, that a torque D (acting about a longitudinal axis of the guide part 3, 3b) Fig. 2 ) can be transferred via the slide body 12a to the arch guide 11a and thus to the base arrangement 2, 2a. For this purpose, the slide body 12a has a plurality of guide elements 29a arranged one behind the other along the curved guide 11a. The guide elements 29a are supported on opposite outer surfaces of the arch guide 11a along the lateral direction L and are each designed in the form of a barrel-shaped rolling element.

A further structural configuration of the linearly movable displaceability of the carriage body 12 on the sheet guide 11 is based on Figures 5a and 5b evident. The configuration shown there differs from that based on Figures 4a and 4b apparent configuration essentially to the effect that the support elements 22b, 27b and the counter-support elements 25b, 28b are designed in the form of sliding elements 30. Accordingly, the guide elements 29b for laterally supporting the slide body 12b on the arched guide 11b are also designed in the form of sliding elements.

A further structural configuration of the linearly movable displaceability of the carriage body 12 on the sheet guide 11 is based on Figures 6a and 6b evident. The configuration shown there differs from the embodiments according to FIG Figures 4a and 4b or. Figures 5a and 5b essentially to the effect that a curved guide 11c is provided which has a round cross section. In the present case, the arch guide 11c is made of round material made with a full cross-section. Of course, it is also possible to provide a tubular hollow cross-section in the arch guide 11c instead. The sheet guide 11c is encompassed in the circumferential direction by a slide body 12c. How based on Figure 6a is clarified, a can in relation to the plane of the drawing Figure 6a The lower portion of the slide body 12c can be understood as a support element 22c. An upper section 25c of the slide body 12c can accordingly be understood as a counter-support element 25c supported on the arched guide 11c in the radial direction in opposite directions to the support element 22c. As shown by the cross-sectional representation of the Figure 6b As can be seen, the slide body 12c has a bearing sleeve 31. The bearing sleeve 31 completely surrounds the circular cylindrical cross section of the arch guide 11c in the circumferential direction. Instead of such a complete wrap-around, for example, only a section-wise wrap-around can be provided. The latter is the case, for example, when the bearing sleeve 31 is slotted or divided into sub-elements, which is based on the Figure 6b should be made clear by means of the partial plane S schematically drawn in there. The bearing sleeve 31 extends continuously along the curved guide 11c and essentially over the entire length of the slide body 12c. Instead, it is also possible for two bearing sleeves that are significantly shortened in comparison to the bearing sleeve 31 to be provided, the bearing sleeves being arranged opposite one another on the front ends of the slide body 12c. The bearing sleeve 31 is provided in the present case as a separate machine element connected to the other components of the slide body 12c. Alternatively, the bearing sleeve 31 can be formed in one piece with the slide body 12c. The slide body 12c can be moved along the curved guide 11c by means of the bearing sleeve 31. The bearing sleeve 31 is designed as a sliding sleeve. Instead, the bearing sleeve 31 can also be designed as a linear ball bearing known in principle, so that the slide body 12c can be moved on the curved guide 11c with roller bearings.

The above-described configurations of the support of the slide bodies 12a, 12b and 12c on the respective arch guide 11a, 11b or 11c can of course be provided on the scrubber-suction machine 1, 1a and 1b independently of the respective embodiment.

Claims (10)

Scrubber-suction machine (1, 1a, 1b) with a base arrangement (2, 2a), which can be moved in a functional position on a surface (4) to be worked, and with a guide part ( 3, 3b) for manual control of the base arrangement (2, 2a), characterized in that a curved guide (11, 11a, 11b, 11c) is provided on the base arrangement (2, 2a), on which a guide part (3, 3b) connected slide body (12, 12a, 12b, 12c) is linearly movable, which by means of at least two support points (P1, P2) spaced from one another along the arch guide (11, 11a, 11b, 11c) at least in the radial direction (R) on the Arch guide (11, 11a, 11b) is supported. Scrubbing-suction machine (1, 1a, 1b) according to Claim 1, characterized in that the arch guide (11, 11a, 11b, 11c) is curved continuously and in the same direction. Scrubbing-suction machine (1, 1a, 1b) according to claim 1 or 2, characterized in that the arch guide (11, 11a, 11b, 11c) is in the shape of a circular arc over an angle of at least largely 90 °, preferably over an angle of at least largely 120 °, and particularly preferably over an angle of at least largely 180 °, extends. Scrubbing-suction machine (1, 1a, 1b) according to one of the preceding claims, characterized in that the arch guide (11, 11a, 11b, 11c) extends over the base arrangement (2, 2a). A scrubber-suction machine (1a) according to one of the preceding claims, characterized in that the sheet guide (11, 11a, 11b, 11c) is mounted on the base arrangement (2a) so as to be pivotable about a pivot axis (18), which is at least largely in a Guide level (F) of the sheet guide (11, 11a, 11b, 11c) lies. A scrubber-suction machine (1a) according to Claim 5, characterized in that the pivot axis (18) extends essentially parallel to a base surface of the base arrangement (2a), and in particular is arranged directly above the base arrangement. Scrubbing-suction machine (1, 1a, 1b) according to one of the preceding claims, characterized in that the slide body (12, 12a, 12b, 12c) has at least one in radial direction (R) on the arch guide (11, 11a, 11b, 11c) supported supporting element (22a, 27a, 22b, 27b, 22c), in particular in the form of a sliding (30) or rolling element (23), the at least one the first of the support points (P1, P2). Scrubbing-suction machine (1, 1a, 1b) according to claim 7, characterized in that the slide body (12, 12a, 12b, 12c) has at least one to the support element (22a, 27a, 22b, 27b, 22c) in the radial direction (R) counter-support element (25a, 28a, 25b, 28b, 25c) supported in opposite directions on the arch guide (11, 11a, 11b, 11c), in particular in the form of a counter-slide (30) or counter-rolling element (23), which has at least one second which forms the support points (P1, P2). Scrubbing-suction machine (1, 1a, 1b) according to one of the preceding claims, characterized in that the slide body (12, 12a, 12b, 12c) in this way in the lateral direction (L) on the sheet guide (11, 11a, 11b, 11c) is supported that a torque (D) acting about a longitudinal axis of the guide part (3, 3b) via the slide body (12, 12a, 12b, 12c) on the sheet guide (11, 11a, 11b, 11c) and thus on the Basic arrangement (2, 2a) is transferable. Scrubbing-suction machine (1, 1a, 1b) according to one of the preceding claims, characterized in that the arch guide (11c) has a round cross-section and the slide body (12c) has at least the cross-section, in particular by means of at least one bearing sleeve (31) encompassed in sections.

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