The invention relates to a tool for fine machining of surfaces in the form of a grinding disk, polishing disk or the like that comprises a bottom side which is furnished with lamellas and is to be placed with this bottom side flat onto a workpiece and is to be used with areal working movements. Such tools can be designed for actuation by hand as well as, with appropriate drive connectors, for machine-based actuation, wherein the machine-based actuation in most cases provides a rotation about an axis that is substantially perpendicular to the bottom side of the tool and, more rarely, provides an eccentric or an oscillating transitory movement. The use of lamellas as working medium enables providing significantly larger working medium quantities in comparison to abrasive sheets (e.g. sand paper) or similar working media, and thus also a longer service life of the tool, and provides in conjunction with the effective lamella width below the bottom side a volume in which abraded or worn material can be stored and that also enables in regard to surface fine machining an adaption to wavy or curved surfaces.
Tools of the aforementioned kind are, for example, disclosed in WO 2012/163357 A1 or EP 1 633 530 A in which lamellas are inserted into grooves provided at the bottom side of the working medium carrier that is closed at the top and, for example, are secured thereat by gluing or embedding (potting). A manufacture of this type is little suited for mass production in great numbers and requires a plurality of different manufacturing and assembly steps.
In view of this, it is the object of the present invention to provide a tool that can be manufactured inexpensively as a mass-produced article and that can be furnished easily and simply with lamellas for different requirements and that also enables the user to carry out retrofitting or renewing with exchange of worn lamellas.
According to the invention, this object is solved with a tool for fine machining of surfaces, such as cleaning, grinding or polishing, the tool comprising a working medium carrier whose bottom side is provided with a set of lamellas that are arranged in uniform distribution and oriented primarily downwardly, the lamellas each extending with an upper holding rim that in cross-section is reinforced in grooves of the working medium carrier, wherein the grooves are narrowed toward the bottom side of the working medium carrier and allow the respective lamella to pass through with the exception of the holding rim, and wherein the grooves, at least with one end, exit with an open groove cross-section from the working medium carrier at a carrier rim of the working medium carrier, wherein the working medium carrier is comprised of an injection-molded plastic part in which the grooves are formed so as to be open at the top without being narrowed in upward direction and at the top are covered by a cover that is fixedly connected to the working medium carrier and that closes off the grooves with the lamellas inserted therein.
With such a tool, in which the working medium carrier is comprised of a monolithic injection-molded plastic part that secures the lamellas in grooves that open toward the bottom side in a narrowed configuration, a constructive key component for the entire tool is provided. The grooves that are open at the top without being narrowed enable configurations of the injection-molding tool) mold) with simple constructive shapes and simple opening action in order to design the injection molding process and in particular removal from the mold to be quick and reliable. At the same time, the lamellas are held in the grooves at several sides. The cover closes off the grooves at the top, secures the lamella captively in the grooves, and covers also the top side of the tool carrier so that a guard against contact is provided when the tool is rotating or oscillating, the surface can be designed to be pleasing and little prone to soiling, and, for example, in hand-actuated tools, grip areas on the cover can be formed and embodied.
Preferably, the cover, interacting with the working medium carrier, is designed such that with its bottom face it is engaging the lamellas or the holding rim and fixes or clamps the lamellas in the groove and, in particular, also secures them frictionally or with form fit against longitudinal sliding in the groove. Moreover, a cover is suited to form channels for an air guiding action of exhaust air together with the working medium carrier, wherein the channels open approximately between the lamellas at the bottom side of the working medium carrier and are guided outward with connecting openings at the top face of the cover, provided so as to approximately match the suction connectors in standard configurations of drive machines.
The cover that itself can also be of a multi-part configuration and can be comprised of one or several annular elements, for example, in case of a rotating tool, must regularly be connected fixedly with the working medium carrier for working with the tool. This does not preclude a detachable connection of the cover, or part of the cover, relative to the working medium carrier and also does not cause a significant manufacturing expenditure or a complex configuration of the tool. The connection between cover and working medium carrier can be realized simply by screw connections or by clamps; likewise, locking or latching devices can be provided. In case of tools that are configured with rotational symmetry, for example, for use on rotating drives such as power drills, formed thread parts, bayonet connections or similar complementary connection pairs can be formed already during injection molding and can be coupled with a simple rotation or turning action, wherein the rotation direction preferably corresponds to that occurring during working loads in order to prevent decoupling when a working load is acting. A detachable connection may provide the user with the possibility of exchanging lamellas as a whole or partially when worn or for adaptation to the work to be performed.
On the other hand, the cover can be connected simply and in a robust way non-detachably with the working medium carrier to form a “disposable tool”, for example, by gluing or fusing in case of selecting matching thermoplastic materials of injection molding materials for the cover and the working medium carrier. In any case, the configuration according to the invention of the tool provides for variable furnishing during manufacture with advantages for simple working steps in mass production.
For tools of this kind that are to be actuated by a machine, a drive connector is to be provided that is suitable for the driving action and is expediently fixedly connected to the working medium carrier itself and thus enables a robust and direct introduction of the driving forces while the cover remains free of loads and accordingly can be designed to be lightweight.
For manually actuated tools of this kind on the other hand, advantageously a cover in the form of a cap that comprises a closed top and is provided with a gripping area can be provided, wherein a grip like a hand knob can be provided for gripping or the grip can be designed for flat pressure action by a hand with a hand loop though which the hand is to be pushed.
Embodiments of the invention are illustrated in the drawing and will be explained in the following in more detail.
The tool that is identified in
The integrally formed threaded portions such as the threaded portion 5 in
These multiple embodiments can be produced with a working medium carrier 3 and a cover 4 of plastic material quickly, simply, and inexpensively by way of injection molding. The working medium carrier 3 comprises primarily radially oriented grooves 7 for receiving lamellas 2. The groove cross-section is matched to the cross-section of an upper reinforced (thicker than the remainder of the lamella) holding rim 8 of the lamellas 2 wherein the lamellas 2 extend away from the holding rim 8 in downward direction, pass through a narrowed portion 9 of the groove cross-section, and then project away from the bottom side 10 of the working medium carrier 3 with a functionally effective exposed strip.
The grooves 7 open at the carrier rim, i.e., have an open end in the longitudinal direction with a cross-section or shape that matches the groove cross-section, and enable in this way furnishing of the working medium carrier 3 with the strip-shaped lamellas 2 that are reinforced by the holding rim 8 that is thicker than the lamella body (remainder of the lamella). The holding rim 8 of the lamellas 2 can be inserted through the open end from the exterior into the interior in longitudinal direction into the grooves 7.
The grooves 7, due to their manufacture, are formed to be open in upward direction without being narrowed. It is thus possible in particular to avoid complex multi-part injection molds for a working medium carrier 3 with narrowed and thus inaccessible grooves and, instead, to provide a simple mold, preferably comprising only two parts, that can be handled, even for removal of the molded article from the mold, with a simple opening movement quickly, simply, and robustly.
By means of the grooves 7 that are open at the bottom side and the top side and have an open end in longitudinal direction, slots are provided in the working medium carrier 3 and, between the slots, sectors of the working medium carrier 3 are maintained that are connected only in a central area with each other. The grooves 7, as can be seen in
The monolithic cover 4 comprises in addition to a substantially flat cover plate 11 a circumferential annular collar 12 which, after the working medium carrier 3 has been furnished with the lamellas 2 and connected with the cover 4, tightly encloses a circumferential carrier rim 13 of the working medium carrier 3. Accordingly, the open ends of the grooves 7 at the carrier rim are closed off so as to prevent the lamellas 2 from being thrown off.
Moreover, the annular collar 12 is provided with locking knobs 14 integrally formed at the inner side that engage the open ends of the grooves 7 and fix the sectors of the working medium carrier 3 relative to each other; at the same time, they also provide a locking restraint in the circumferential direction against a detachment or loosening movement within the connection between working medium carrier 3 and cover 4 when moment loading occurs, for example, during use of the tool. In principle, the rotational direction of the formed threaded portions 5 between cover 4 and working medium carrier 3 is selected such that load moments that occur when using the tool act in the sense of a fixed (fast) connection.
Expediently, the annular collar 12 also comprises a locking rim 15 which is circumferentially extending all around or at least partially with which the annular collar 12 can also engage the working medium carrier 3 from below in order to secure the connection between cover 4 and working medium carrier 3.
The cover 4 has in addition to the central cutout 6 also an annular arrangement of openings that are uniformly distributed in a circle and serve as connecting openings 16 for a dust suction device. For a concentric suction connector of a drive, these opening are to be provided with matching outer diameter, for example. However, the suction guiding action below the cover 4 can then be designed as desired, for example, with open channels in the working medium carrier 3 and closed off by the cover 4 from above, in order to connect with suction openings 17 at the bottom side of the working medium carrier 3 which are positioned between the grooves 7 and the lamellas 2 extending away from the grooves 7. In the configuration of the tool 1 according to
In
A simple configuration of a lamella 19 according to
A variant of a lamella 21 according to
In
Moreover, the cover 33 is not monolithic with an annular collar but is engaged and clamped by a circumferential ring 36 together with the working medium carrier 32. A detachability of the holding ring 36 is to be achieved in that it is provided with radially inwardly oriented coupling pins 37 (
A further tool 41 according to
The cover 46 has a concave bottom side 47 which snugly fits with open groove shapes 48 the holding rims 43 of the lamellas 42 for top-side securing of the holding rims 43 of the lamellas 42.
Outwardly projecting locking shapes 49, illustrated enlarged in
A conventional drive connector 50 in a pin shape is illustrated on the working medium carrier 45 into which, during injection molding, also a metallic cup nut 51 is embedded for greater strength. This drive connector 50 extends through a central opening of the cover 46 so that a force flow from the drive can be transmitted on a short path directly into the working medium carrier 45 while the cover 46 remains free of load.
The working medium carrier 45 has suction slots 52 which open at the bottom side between the lamellas 42 and at the topside are in communication with suction connection slots 53 in the cover 46 in order to provide an air guiding action for the dust suction action wherein the slots 52 and 53 must not be congruent at all. Typically, the slots 52 extend radially farther outwardly than the radially limited slots 53 for the corresponding machine connector.
A further embodiment according to
Here, the working medium carrier 55 is also provided with a monolithically formed drive connector 59 so that the forces applied by the respective drive or the moments can be transmitted within the working medium carrier 55 onto the lamellas 56 while the cover 58 is thus outside of the force flow.
In
A further manually operated tool 70 is illustrated in a perspective view from above in
A further manual tool 80 for fine machining of surfaces as shown in perspective view according to
The cover 81 has at its bottom side 85 a shape that is designed to engage the top edges (holding rims) of the lamellas in order to secure them within the working medium carrier 83 free of play as much as possible Moreover, the cover 81 engages by means of lateral parts 86, extending in downward direction, longitudinal edges of the working medium carrier 83 in order to close off the edges (carrier rim) smoothly and to positionally fix the inserted lamellas.
It is understood that the afore described round embodiments as well as the rectangular embodiment according to
The specification incorporates by reference the entire disclosure of German priority document 20 2014 000 852.3 having a filing date of Jan. 30, 2014.
While specific embodiments of the invention have been shown and described in detail to illustrate the inventive principles, it will be understood that the invention may be embodied otherwise without departing from such principles.
Number | Date | Country | Kind |
---|---|---|---|
20 2014 000 852 U | Jan 2014 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
2328886 | Andrews | Sep 1943 | A |
2423992 | Nordgren | Jul 1947 | A |
3132452 | Block | May 1964 | A |
3512311 | Block | May 1970 | A |
4251958 | Langenberg | Feb 1981 | A |
4461127 | Hanger | Jul 1984 | A |
4493170 | Hanger | Jan 1985 | A |
8469775 | Dow | Jun 2013 | B2 |
20090221212 | Palushaj | Sep 2009 | A1 |
Number | Date | Country |
---|---|---|
24 11 749 | Sep 1975 | DE |
198 09 046 | Sep 1999 | DE |
1 633 530 | Mar 2006 | EP |
2012163357 | Dec 2012 | WO |
Number | Date | Country | |
---|---|---|---|
20150209938 A1 | Jul 2015 | US |