EP3928928A1 - Chiseling tool with structured section - Google Patents

Abstract

The invention relates to a chiselling tool (10), in particular for a hand-held power tool, comprising a tool tip (12) having at least one wedge surface (16) and a tool shank (14). It is characterized in that the tool shank (14) has a structured section (18) on the peripheral side. The risk of the chisel tool becoming stuck during chiselling can be reduced by the invention.

Description

The present invention relates to a chisel tool, in particular for a handheld power tool, comprising a tool tip having at least one wedge surface and a tool shank.

When chiseling in rock, for example when chiseling in cement-containing rock, with a chisel tool of the type described at the outset, the chisel tool often becomes lodged in the rock. Such a seizure of the chisel tool can be observed particularly frequently when the chisel tool is used with powerful handheld power tools such as, for example, electrically and / or pneumatically operated chisel handheld power tools.

There is therefore a long-cherished wish in the professional world to have a chiseling tool of the type mentioned at the outset, in which the risk of sticking when chiseling, in particular when chiseling in rock, is reduced. This desire is an object of the present invention.

The object is achieved in a simple and surprising manner by a chisel tool, in particular for a handheld power tool, comprising a tool tip having at least one wedge surface and a tool shank, the tool shank having a structured section on the circumference.

The invention is based on the surprising finding that the structured section, due to the vibration usually occurring during operation of the chisel tool, can contribute along the tool shank or at least along part of the tool shank within the space created by the chisel tool during operation To create a chisel hole. This additional free space can then prevent the chisel tool from sticking in the rock, in particular on the walls of the chisel hole.

This finding appears all the more surprising because otherwise, for example with regard to rock bolts as in the utility model DE 1 763 014 U described, circular grooves, recesses, bulges or the like are known to promote good adhesion of the rock anchor in a rock, so precisely not to allow a particularly poor fit in the rock.

The structured section can be set up for rubbing and / or sawing in order to further improve its free space-creating effect in connection with the vibration. It can have a sawtooth structure, in particular a radially outwardly pointing, and / or a, preferably flat and particularly preferably radially outwardly pointing, wave pattern.

The structured section preferably does not extend onto the tool tip, in particular not up to the at least one wedge surface of the tool tip. The structured section can only be located on the tool shank.

The chisel tool can be set up for use with a handheld power tool designed as a chisel hammer machine and / or a hammer drill machine.

In one class of embodiments, the structured portion has at least one rib. The structured section preferably has a multiplicity of ribs.

The at least one rib can have an outer edge. The outer edge of the rib can be designed particularly easily for rubbing and / or sawing. The outer edge can be sharpened and / or hardened.

The ribs can be arranged distributed regularly over the structured section. For example, they can be arranged along rings that are offset parallel to one another.

The at least one rib can run inclined at an angle of inclination of at least 45 °, preferably 60 °, with respect to a longitudinal direction of the chisel tool. All ribs are preferably designed and / or arranged inclined relative to the longitudinal direction, in particular with the same angle of inclination.

The at least one rib can have a helical structure and / or be designed as a helical structure and / or be arranged in a helical structure. Preferably, all of the ribs can be designed and / or arranged in this way.

In one class of embodiments of the invention it is provided that the at least one rib runs transversely to the longitudinal direction. It is particularly preferable for all of the ribs to run transversely to the longitudinal direction.

The at least one rib can protrude locally between 0.3 mm and 3 mm, particularly preferably 1 mm, from the rest of the tool shank in order to achieve a sufficient rubbing and / or sawing effect. In other words, the rib height can be 0.3 mm to 3 mm, particularly preferably 1 mm.

In the longitudinal direction, adjacent ribs can be spaced between 0.2 cm and 1 cm, preferably 0.4 cm, from one another. In general, the distance can be selected such that chisel powder produced by the operation of the chisel tool either cannot get between adjacent ribs and / or is not compacted between the adjacent ribs during operation of the chisel tool.

The dimensions, in particular the rib height and / or the distance between adjacent ribs from one another, can be selected as a function of the rock to be chiseled and / or as a function of the chisel dust produced during the chiselling.

The removal of the chisel dust can be improved if the tool shank in the area of the structured section, in particular in the area of the ribs, has at least one lengthwise direction or at least essentially has a channel running in the longitudinal direction of the tool shank. Preferably, two, three or four and / or more channels distributed evenly over the circumference of the tool shank, in particular of the structured section, can be formed. The channels can be designed in the shape of a channel. It is also conceivable that the channels are set up as flushing channels.

The removal of the chisel dust can be further optimized if the at least one channel, preferably all channels, extends along the longitudinal direction over the entire structured section. In particular, the at least one channel can be designed to lead through the structured section.

The tool shank can have a smaller largest diameter outside the structured section than in the area of the structured section. In particular, the tool shank on the side of the structured section opposite the tool tip can have a larger diameter that is smaller than that of the structured section. This remaining part of the tool shank can thus move largely without friction within the chisel hole created by the chisel tool, as a result of which the risk of the chisel tool seizing can be further reduced.

The chisel tool is preferably designed as a pointed chisel. Alternatively, it is also conceivable that the chisel tool is designed as a flat chisel.

A chisel tool, in which at least the structured section is produced by a forming process and / or non-machining, can be provided in a particularly cost-effective manner. Use can be made of the fact that the ribs can have a relatively blunt outer edge for the required rubbing and / or sawing action.

As an alternative or in addition, it is also conceivable that the structured section is produced, at least also, by a machining production method, for example by milling. The chisel tool can then be flexibly adapted within wide limits to individual requirements, for example with regard to the material to be processed.

The chisel tool can have an insertion end designed for tool-free tool change. In particular, it can have an insertion end for a tool-free tool change system, which is commonly referred to, for example, with “SDS”, in particular “SDS-plus” or “SDS-max”, or with “TE-S” or “TE-H28”.

The scope of the invention also includes the use of a chiseling tool according to the invention for chiseling in rock, preferably cement-containing rock. It is particularly useful if the chisel tool is used together with a high-performance hand-held power tool, for example a portable high-performance chisel machine. In particular when chiseling with high removal rates has hitherto been an increased risk of the chisel tool sticking in the chisel hole it has created.

Further features and advantages of the invention emerge from the following detailed description of exemplary embodiments of the invention, with reference to the figures of the drawing, which shows details essential to the invention, and from the claims. The features shown there are not necessarily to be understood in terms of scale and are shown in such a way that the special features according to the invention can be made clearly visible. The various features can each be implemented individually or collectively in any combination in the case of variants of the invention.

In the schematic drawing, exemplary embodiments of the invention are shown and explained in more detail in the following description.

Fig. 1

ein erstes Meißelwerkzeug in einer Seitenansicht und

Fig. 2

ein zweites Meißelwerkzeug in einer Seitenansicht.

Show it:

Fig. 1

a first chisel tool in a side view and

Fig. 2

a second chisel tool in a side view.

In the following description of the figures, the same reference symbols are used in each case for identical or functionally corresponding elements to facilitate understanding of the invention.

Fig. 1 shows a chisel tool 10 with a tool tip 12 and a tool shank 14 . The chisel tool 10 is designed as a pointed chisel. For this purpose, the tool tip 12 has a conical wedge surface 16 through which a pointed end of the tool tip 12 is formed.

The tool shank 14 has a structured section 18 adjacent to the tool tip 12.

At its end opposite the tool tip 12, the tool shank 14 has an insertion end 20 , in particular a y-shaped, corresponding to the “SDS max” standard. It is also conceivable that the tool shank 14 alternatively has a C-shaped insertion end 20.

The structured section 18 has a large number of regularly arranged ribs 22 , of which, for reasons of clarity, three ribs 22 are provided with a reference number as an example and representative of the remaining ribs.

The structured section 18 has a total of four channels 24 running in a longitudinal direction L of the chisel tool 10, of which in the illustration according to FIG Fig. 1 only two channels 24 can be seen. The channels 24 are arranged distributed uniformly over the circumference of the tool shank 14 and in particular the structured section 18.

The ribs 22 have a cuboid shape. They are arranged to run transversely to the longitudinal direction L. They have a rib height hr of 1 mm. Their rib width br is also 1 mm. Ribs 22 adjacent to one another have a spacing ar of 4 mm.

The structured section 18 has a largest diameter da of 21 mm, in particular 21.2 mm. The largest diameter dw of the rest of the tool shank 14 is 18 mm.

The chisel tool 10 has a total length Im of 36 cm, in particular 360 mm. The ribs 22 of the structured section 18 are located at a distance Ir of 22 cm from the insertion end 20 -side end of the tool shank 14.

Fig. 2 shows a further chisel tool 10. This chisel tool 10 corresponds to the one above with reference to FIG Fig. 1 chisel tool 10 described, unless otherwise indicated below. In particular, this chisel tool 10 and its elements can also have the same dimensions and / or dimensions as the above-described chisel tool 10 and its elements.

This embodiment of the chisel tool 10 differs from the embodiment described above in the design of its ribs 22 of its structured section 18.

In particular, these ribs 22 have a prismatic shape. They are arranged so as to be inclined at an angle of inclination alpha of 60 ° with respect to the longitudinal direction L. In particular, they are arranged in a helical manner over the circumference of the structured section 18. The helical course of the ribs 22 is interrupted by the channels 24 which are again evenly distributed over the circumference.

List of reference symbols

10

Chisel tool

12th

Tool tip

14th

Tool shank

16

Wedge surface

18th

structured section

20th

Spigot end

22nd

rib

24

channel

L.

Longitudinal direction

alpha

Tilt angle

ar

distance

br

Rib width

there

diameter

dw

diameter

Mr

Rib height

in the

overall length

Ir

distance

Claims (13)

Chisel tool (10), in particular for a hand machine tool, comprising a tool tip (12) having at least one wedge surface (16) and a tool shank (14),
characterized,
that the tool shank (14) has a structured section (18) on the circumferential side. Chiseling tool according to Claim 1, characterized in that the structured section (18) has at least one rib (22). Chisel tool according to one of the preceding claims, characterized in that the at least one rib (22) runs inclined at an angle of inclination (alpha) of at least 45 °, preferably 60 °, relative to a longitudinal direction (L) of the chisel tool (10). Chisel tool according to one of the preceding claims, characterized in that the at least one rib (22) runs transversely to the longitudinal direction (L). Chiseling tool according to one of the preceding claims, characterized in that the at least one rib (22) has a helical structure and / or is designed as a helical structure and / or is arranged in a helical structure. Chiseling tool according to one of the preceding claims, characterized in that the at least one rib (22) projects between 0.3 mm and 3 mm, particularly preferably 1 mm, locally from the rest of the tool shank (14). Chiseling tool according to one of the preceding claims, characterized in that in the longitudinal direction (L), respectively adjacent ribs (22) have a distance (ar) between 0.2 cm and 1 cm, preferably 0.4 cm, from one another. Chiseling tool according to one of the preceding claims, characterized in that the tool shank (14) in the area of the structured section (18), in particular in the area of the at least one rib (22), at least one in the longitudinal direction (L) or at least essentially in the longitudinal direction ( L) of the tool shaft (14) has running channel (24). Chiseling tool according to the preceding claim, characterized in that the at least one channel (24) extends along the longitudinal direction (L) over the entire structured section (18). Chisel tool according to one of the preceding claims, characterized in that the tool shank (14) outside the structured section (18) has a smaller largest diameter (dw) than in the area of the structured section (18). Chisel tool according to one of the preceding claims, characterized in that the chisel tool (10) is designed as a pointed chisel. Chisel tool according to one of the preceding claims, characterized in that at least the structured section (18) is produced by a forming process and / or non-machining. Use of a chiseling tool (10) according to one of the preceding claims for chiseling in a rock, preferably cement-containing rock.

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