EP0618052A1 - Hand plane - Google Patents

Abstract

A hand plane has a tool shaft (5b) which extends transversely to the advancing direction in the machine casing (2) and has a planing tool (3b) arranged on it. Planing tool (3b) and tool shaft (5b) form a rotational unit, on the external end face (21b) of which a central end recess (24b) is arranged. The rotational unit (3b, 5b) is mounted on two rotary bearings (22b, 23b), of which the outer rotary bearing (22b) is arranged within the end recess (24b) and is seated on a bearing part (25b) fixedly connected to the machine casing (2) via a holding part (26b). The holding part (26b) has a holding portion (27b) which is submerged in the end recess (24b) and holds the bearing part (25b), as well as a fastening portion (28b) which projects outwards beyond the planing tool end face (21b) from the holding portion (27b) in the upper region of the end recess (24b) and establishes the connection to the machine casing (2). <IMAGE>

Description

The invention relates to a hand planing machine with a machine housing and an essentially circular cylindrical planing tool arranged in it and fastened on a tool shaft running transversely to the feed direction, the machine housing forming a lateral guide surface for guiding the machine along an edge surface which stands up from the workpiece surface to be planed and which outer end face of the planing tool is arranged substantially in the plane of the guide surface and is exposed from below up to a maximum possible edge surface height, and wherein the rotation unit formed by the tool shaft and the planing tool has a central end recess on the outer end face of the planing tool and by means of an outer one Pivot bearing and an inner pivot bearing which faces or faces the outer end face of the planing tool is pivoted.

For example, from DE-GM 19 43 624 a hand planer is known in which the planing tool is plugged onto a fixed bearing sleeve from the outside, which, for example extends to the middle of the planing tool and carries the outer rotary bearing there. In this way, an overall exposed outer end face of the planing tool can be reached, so that the maximum possible edge surface height over which the hand planer can plunge into the workpiece is unaffected by the planing tool and its storage and can only be limited by any other housing parts. that protrude sideways.

This results in a correspondingly reduced rigidity of the arrangement because of the relatively far inner storage.

On the other hand, one could think of storing the planing tool on the outside by letting a housing part protrude downward beyond the center of the tool in front of the end face of the planing tool in order to be able to fasten the outer rotary bearing there.
Although this would improve the rigidity, the maximum possible edge surface height would accordingly be smaller than the radius of the planing tool.

The present invention is therefore based on the object of providing a hand planing machine of the type mentioned at the outset which has a rotation unit mounted as stably as possible without the maximum possible edge surface height being limited to a dimension smaller than the tool radius.

This object is achieved in that the outer pivot bearing is arranged within the end recess and on a holding part with the machine housing connected bearing part is seated, the holding part having a part immersed in the end recess, holding the bearing part and a projection in the upper region of the end recess from the holding part outwardly in front of the planing tool end, which provides the connection to the machine housing.

The outer pivot bearing is thus located in the area of the outer tool end face. In this case, the holding part for the bearing part is in front of the tool end face, but only with its fastening part arranged above the center of the tool and thereby adjacent as close as possible to the upper edge of the end recess. This point, where the holding part dips into the front recess, determines the maximum possible edge surface height.

The holding part can expediently be formed by a holding bracket having an angled shape.

A particularly rigid and tolerance-free arrangement is obtained in a hand planer in which the tool shaft is extended beyond the inner end of the planing tool opposite the outer end face, the shaft extension being rotatably mounted on the inner rotary bearing and carrying a disk-like or wheel-like drive means that the tool shaft is a hollow recess forming the end recess, which is penetrated by a bearing shaft which is held on both ends of the housing and which forms the outer bearing part on which the outer pivot bearing is seated and an inner bearing part on which the inner pivot bearing is seated.

In such a case, the two rotary bearings are inevitably in alignment with one another, since they are both arranged on the continuous bearing axis. This continuous bearing axis also forms an internal reinforcement for the rotation unit.

In this context, an expedient development can consist in that the disk-like or wheel-like drive means is integrally formed on the shaft extension. This is not only cheaper and less tolerance-related with respect to a separately manufactured drive means placed on the shaft, but is also easier with regard to balancing.

Fig. 1

eine erfindungsgemäße Handhobelmaschine in schematischer Darstellung in Seitenansicht, wobei die dargestellte Maschine sowohl mit der aus Fig. 2 hervorgehenden Werkzeugeinheit als auch mit der aus Fig. 3 hervorgehenden Werkzeugeinheit ausgestattet sein kann,

Fig. 2

die Handhobelmaschine nach Fig. 1 im Querschnitt gemäß der Schnittlinie A-A mit einer ersten Ausführungsform der Werkzeugeinheit und

Fig. 3

wiederum die Handhobelmaschine gemäß Fig. 1 im Querschnitt gemäß der Schnittlinie A-A mit einer zweiten Ausführungsform der Werkzeugeinheit.

Embodiments of the invention will now be explained in detail with reference to the drawing. Show it:

Fig. 1

2 shows a hand planer according to the invention in a schematic representation in a side view, the machine shown being able to be equipped both with the tool unit shown in FIG. 2 and with the tool unit shown in FIG. 3,

Fig. 2

1 in cross section along the section line AA with a first embodiment of the tool unit and

Fig. 3

1 in cross section according to section line AA with a second embodiment of the tool unit.

The hand planer 1 has a machine housing 2, which is composed of several housing areas in the usual way. An essentially circular-cylindrical planing tool 3a; 3b is arranged in the machine housing 2 and is mounted in a rotationally fixed manner on a tool shaft 5a; 5b running transversely to the feed direction 4 of the hand planing machine, so that the planing tool 3a; 3b and the tool shaft 5a; 5b form a rotary unit, which can be driven by a motor. The planer tool 3a; 3b, which is essentially circular-cylindrical in shape, carries at least one planer knife (not shown separately) on its circumference, which causes the machining of a workpiece 6, for example made of wood. The planing tool 3a; 3b is exposed on the underside of the machine so that it can come into engagement with the workpiece 6. To support the hand planer on the workpiece 6, there is a height-adjustable infeed table top 7 on the underside of the machine in the feed direction 4 in front of the planing tool 3a; 3b, which rests on the still unplaned workpiece when the hand planer is guided over the workpiece surface 8 to be planed, and behind the planer 3a; 3b a fixed outlet table top 9, the underside of which lies on the already planed area of the workpiece surface 8 and extends tangentially to the flight circle of the planing tool 3a, 3b.

Arranged behind the planing tool 3a; 3b is a drive motor 10, indicated by dashed lines, which in the region of the machine side facing away from the viewer of FIG. 1 with the planing tool 3a; 3b is connected via a power transmission device which from a drive belt 11 or the like. can be formed, which runs endlessly on the one hand via a drive wheel of the motor 10 and on the other hand via a disk-like or wheel-like drive means 12a; 12b connected to the tool shaft 5a; 5b in a rotationally fixed manner. The drive belt 11, the drive wheel of the motor 10 and the disk or wheel-like drive means 12a; 12b are accommodated in a housing attachment 13 arranged on the machine side mentioned.

A handle 14 for holding and guiding the machine when planing is arranged on the top of the machine, which can be a molded housing part and has an elongated shape in the feed direction 4. On the handle 14 there is an electrical switch 15 to be actuated with the hand gripping the handle 14 for switching the motor 10 on and off.
At a distance below the handle 14 there is a housing area 16 which accommodates the planing tool 3a, 3b and is flat in the exemplary embodiment, to which a motor housing area 17 connects to the rear, which on the machine side in question, which in FIG. 1 faces the viewer is can protrude sideways.

The hand planer 1 is also designed so that it can also be used to plan a workpiece surface 8, next to which a workpiece edge surface 18 is at right angles.
Such a workpiece edge surface 18 is formed automatically during planing if a workpiece 6 is present which is not planed over the entire width of the workpiece.
It is the so-called seam planing, in which the planing machine with the machine side facing the Workpiece edge surface is guided along so that the workpiece surface 8 to be planed is planed into the corner to the edge surface 18. In order to guide the planer along the edge surface 18, a guide surface 20 is provided on the machine housing 2 on the facing side, which is arranged in particular in the lower region of the machine side, in the exemplary embodiment above the outlet table top 9. The outer end face 21a; 21b of the planing tool 3a, 3b is essentially in the plane of this guide surface 20. In FIGS. 2 and 3 it is therefore covered by the planing tool 3a, 3b.

In the said planing process, the edge surface height h, which corresponds to the distance between the unworked workpiece surface 19 and the planed workpiece surface 8, increases with each planing pass. This goes up to a maximum possible edge surface height, which is reached when a on the machine side in front of the plane of the outer end face 21a; 21b of the planing tool protrudes from above against the unprocessed workpiece surface 19. In the hand-held planer 1 shown, the arrangement is now such that, despite the fact that the planing tools 3a, 3b and the tool shaft 5a; 5b formed in the area of the outer tool end face 21a; 21b, such a projecting part, which limits the achievable edge surface height h, only occurs above the center of the tool.

The rotation unit 3a, 5a; 3b, 5b is by means of an outer rotary bearing 22a; 22b facing the outer planing tool end face 21a; 21b and an opposite inner rotary bearing 23a; 23b pivoted. Furthermore, the rotation unit 3a, 5a; 3b, 5b on the outer end face 21a; 21b a central end recess 24a; 24b, within which the outer rotary bearing 22a; 22b is arranged and thereby on a bearing part 25a; 25b sits, which can be formed by a journal. The bearing part 25a; 25b is via a holding part 26a; 26b firmly connected to the machine housing 2 or, in the exemplary embodiment, to its housing region 16. The holding part 26a; 26b has an end recess 24a; 24b immersed, the bearing part 25a; 25b holding section 27a; 27b and one in the upper region of the front recess 24a; 24b from the holding section 27a; 27b outwards in front of the planing tool end face 21a; 21b protruding fastening part 28a; producing the connection to the machine housing 2 or to the housing region 16; 28b on. The holding part 26a; 26b thus engages in the upper region of the front recess 24a; 24b and as far up as possible into the front recess so that the subsequent holding section 27a; 27b, to which the bearing part 25a; 25b is fastened, within the end recess 24a; 24b is located. Accordingly, the outer tool end face 21a; 21b from the bottom up to the fastening section 28a; 28b of the holding part 26a; 26b free. This dimension corresponds to the maximum possible edge surface height h, which is therefore larger than the radius of the planing tool 3a; 3b is. In addition to the fastening section 28a; 28b there is no part on the side of the planer up to its height.

In the exemplary embodiment, the housing region 16 covering the planing tool has a parallel to the tool end face 21a; 21b arranged and upstream of the upper region of the tool end face 29a; 29b on which the holding part 26a; 26b is attached so that it starts from this housing edge into the front recess 24a; 24b extends into it.

The holding part 26a; 26b can be formed by an angled shape retaining bracket, which advantageously consists of metal.

The tool shaft 5a; 5b is on the outer end face 21a; 21b opposite inner end of the planing tool 3a; 3b extended beyond this. This shaft extension 30a; 30b on the inner pivot bearing 23a; 23b mounted and carries the disk or wheel-like drive means 12a; 12b.

The previous description applies to both exemplary embodiments, while the two exemplary embodiments are discussed separately below.

In the case of FIG. 2, the planing tool 3a is plugged onto the tool shaft 5a and fixed in the axial direction, the tool shaft 5a ending within the planing tool 3a.
In this case, the tool shaft 5a is only supported on its shaft extension 30a by means of the inner pivot bearing 23a, which is an external bearing, ie the pivot bearing 23a arranged fixed to the housing encloses the shaft extension 30a. Furthermore, the outer rotary bearing 22a or the bearing part 25a carrying it is arranged independently of the tool shaft 5a which ends at a distance from it.

In contrast to this, it is provided in the embodiment according to FIG. 3 that the tool shaft 5b has an internally mounted the end recess 24b forming and in this case drawn up into the area of the tool end face 21b, which is penetrated by a bearing shaft 31b which is fixed to the housing at both ends and which holds the outer bearing part 25b on which the outer rotary bearing 22b is seated and an inner bearing part 32b, on which the inner pivot bearing 23b sits. The continuous hollow shaft bore 33b, which is penetrated by the bearing axis 31b, is widened at both ends to form the outer end recess 24b receiving the outer pivot bearing 22b or to form an inner end recess 34b receiving the inner pivot bearing 23b. The two bearing parts 25b, 32b, on which the rotary bearings 22b, 23b are seated, are formed by the bearing axle ends formed into bearing journals. The outer end of the fixed bearing axis 31b is held in place by the holding part 26b already described and the opposite end of the bearing axis 31b by a supporting part 35b which is fixedly connected to the housing 2.

Thus, in the case of FIG. 3, there is an internal bearing of the tool shaft 5b via the two rotary bearings 22b, 23b on the continuous, fixed bearing axis 31b. This continuous bearing axle 31b, which carries both pivot bearings, ensures great rigidity and a precisely aligned alignment of the two pivot bearings.

Another difference between the two exemplary embodiments is that in the case of FIG. 2, the disk-like or wheel-like drive means 12a is manufactured separately and is non-rotatably applied to the tool shaft 5a, while in In the case of FIG. 3, the disk-like or wheel-like drive means 12b is integrally formed on the shaft extension 30b.
3, it is pointed out that, in a further simplification of the arrangement, the tool shaft 5b and the planing tool 3b can expediently be formed in one piece with one another.

Claims (4)

Hand-held planer with a machine housing and an essentially circular cylindrical planing tool arranged in it and fastened on a tool shaft running transversely to the feed direction, the machine housing forming a lateral guide surface for guiding the machine along an edge surface projecting from the workpiece surface to be planed and the outer end face of the planing tool is arranged essentially in the plane of the guide surface and is exposed from below to a maximum possible edge surface height, and wherein the rotary unit formed by the tool shaft and the planing tool has a central end recess on the outer end of the planing tool and by means of an outer pivot bearing and an inner one Rotary bearing which faces or faces away from the outer end face of the planing tool is characterized in that the outer rotary bearing (22a; 22b) is angular within the end recess (24a; 24b) is arranged and attached to a holding part (26a; 26b) the bearing part (25a; 25b) is firmly connected to the machine housing (2), the holding part (26a; 26b) being immersed in the end recess (24a; 24b), the holding part (27a; 27b) holding the bearing part (25a; 25b) and one in the upper region of the end recess (24a; 24b) projecting outward from the holding part (27a; 27b) in front of the end face of the planing tool (21a; 21b), the connection to the machine housing (2) manufacturing attachment section (28a; 28b). Hand planer according to claim 1, characterized in that the holding part (26a; 26b) is formed by a holding bracket having an angled shape. Hand planing machine according to Claim 1 or 2, in which the tool shaft is extended beyond the inner end of the planing tool opposite the outer end face, the shaft extension being rotatably mounted on the inner rotary bearing and carrying a disk-like or wheel-like drive means, characterized in that the tool shaft ( 5b) is a hollow shaft which forms the end recess (24b) and is penetrated by a bearing shaft (31b) which is held on both ends of the housing and which holds the outer bearing part (25b) on which the outer rotary bearing (22b) is seated and an inner bearing part (32b), on which the inner pivot bearing (23b) sits. Hand-held planer according to Claim 3, characterized in that the disk-like or wheel-like drive means (12b) is integrally formed on the shaft extension (30b).

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