The invention concerns a work device with a guide bar on which a chain is driven in circulation, wherein the work device comprises a tensioning device for the chain, wherein the tensioning device comprises a tensioning member that is acting on the guide bar in direction of a longitudinal center axis of the guide bar, and wherein the tensioning device comprises a rotatably supported adjusting member that is connected by a threaded connection with the tensioning member, wherein turning of the adjusting member about its axis of rotation effects a movement of the tensioning member in the direction of the longitudinal center axis of the guide bar, wherein the adjusting member comprises on its outer circumference a threaded section with at least one thread turn that is provided for engagement with at least one threaded section of the tensioning member, and wherein the adjusting member comprises an actuating contour that comprises at least one recess for turning of the adjusting member by an operator.
WO 2005/108030 A1 discloses a power saw with a saw chain that is driven to circulate about guide bar and can be tensioned by means of a tensioning device. The tensioning device comprises a rotatably supported adjusting screw with a screw head and a screw shaft. The screw shaft acts by means of a threaded connection on a tensioning member secured on the guide bar. Turning of the adjusting screw effects by means of the threaded connection a lengthwise displacement of the guide bar so that the saw chain is tensioned. In order for the saw chain to be tensioned, the operator must apply a great torque to the screw head. Due to the small diameter of the screw shaft, the transmittable tensioning forces are limited.
The invention has the object to provide a work device of the aforementioned kind that has a simple configuration and enables transmission of comparatively high tensioning forces.
This object is solved in that the greatest spacing of the threaded section of the adjusting member relative to the axis of rotation is at least as great as the greatest spacing of the actuating contour relative to the axis of rotation.
It is provided that the greatest spacing of the threaded section of the adjusting member relative to the axis of rotation is at least as large as the greatest spacing of the actuating contour relative to the axis of rotation. Due to the comparatively great outer circumference of the threaded section relative to the outer circumference of the actuating contour, great forces can be transmitted from the adjusting member onto the tensioning member. At the same time, a simple configuration results because no additional components are required for the transmission of comparatively high forces.
Advantageously, the at least one recess of the actuating contour of the adjusting member interrupts the at least one thread turn of the adjusting member at least partially. Accordingly, the recess and the thread turn overlap each other at least partially. Advantageously, the actuating contour extends across a length section of the adjusting member and the thread turn of the adjusting member extends across the entire length of this length section. Due to the overlap of actuating contour and threaded section in the length section of the adjusting member, a minimal construction length of the adjusting member can be achieved. This provides for a compact configuration of the adjusting member with minimal length. Due to the compact configuration of the adjusting member, the adjusting member is lightweight so that a weight reduction of the work device results.
Preferably, the adjusting member has a base member with a cylindrical outer surface and the actuating contour and the threaded section extend respectively across the entire axial length of the base member of the adjusting member. In this way, the adjusting member is of a very compact configuration but the actuating contour and the threaded section are still embodied as large as possible.
Expediently, the actuating contour is formed by at least one, preferably by at least three, in particular at least four, grooves. Expediently, the longitudinal direction of the at least one groove of the actuating contour is positioned at an angle of at most approximately 40° relative to the axis of rotation of the adjusting member. In particular, the longitudinal direction of the at least one groove of the actuating contour extends parallel to the axis of rotation of the adjusting member. Expediently, the flanks of the groove in a section plane perpendicular to the axis of rotation of the adjusting member are positioned at an angle that amounts to from approximately 60° to approximately 120°, in particular from approximately 70° to approximately 110°. The great angle enables a wide opening at the circumference of the adjusting member so that the operator can reach easily between the flanks and rotate the adjusting member.
Advantageously, the work device comprises a chain sprocket cover on which the adjusting member is rotatably supported, wherein the adjusting member is supported in the direction of the axis of rotation on the chain sprocket cover. In this way, the adjusting member is held in the chain sprocket cover and the chain sprocket cover can be easily mounted together with the adjusting member. Since the adjusting member is supported on the chain sprocket cover and not immediately on the housing, the tensioning force is transmitted by means of the chain sprocket cover into the housing.
Preferably, the chain sprocket cover has an opening through which the base member of the adjusting member projects at least partially to the exterior side of the chain sprocket cover. The chain sprocket cover has advantageously a grip depression on at least one side of the opening which is extending parallel to the axis of rotation of the adjusting member. In this way, the adjusting member is easily accessible for an operator. Moreover, dirt which has deposited in the tensioning device, for example, sawdust, can exit through the opening. The dirt is conveyed through the opening by rotation of the adjusting member.
Expediently, the adjusting member has at its end faces bearing pins which are held in receptacles of the chain sprocket cover. Expediently, the bearing pins are clipped into receptacles of the chain sprocket cover. The bearing pins can also be held in a bearing cup which is formed on a bearing cover wherein the bearing cover is fastened to the chain sprocket cover.
Advantageously, the work device comprises an actuating element for fixation of the chain sprocket cover on the housing of the work device that is arranged adjacent to the tensioning device on the chain sprocket cover. In this way, an operator can tension the chain, in particular saw chain, by rotation of the adjusting member with one hand, for example, and, after reaching the desired saw chain tension, can secure the chain sprocket cover on the housing of the work device with the other hand by adjustment of the actuating element.
Preferably, the tensioning member is configured disk-shaped and supports on one flat side the threaded section, wherein the threaded section is formed by partial sections of neighboring thread turns. The flat side which is supporting the threaded section has advantageously a step which is extending transverse to the longitudinal center axis of the guide bar, wherein the thickness of the tensioning member on the side of the step which is facing the fastening element is reduced. In this way, the tensioning member can be pushed into the area of the fastening element so that a greater tensioning travel of the tensioning device for minimal construction width of the saw is provided. In this way, the work device, in particular in transverse direction, i.e., in the direction of the axis of rotation of the drive shaft, is of a compact and narrow configuration. The actuating element can be designed to be comparatively large so that an operator can simply and comfortably actuate the actuating element.
Expediently, the outer diameter of the adjusting member amounts to at least 15 mm, in particular at least 20 mm. Due to the comparatively large outer diameter, a great force is transmittable from the adjusting member by means of the threaded sections onto the tensioning member. Even with minimal strength, the adjusting member can apply high tensioning forces. Moreover, due to the comparatively great outer diameter of the adjusting member, a large thread diameter is made possible wherein as a result of the large thread diameter the load of the thread flanks, compared to an adjusting member with smaller outer diameter and smaller thread diameter, is reduced for the same load so that the threaded section of the adjusting member can be comprised of plastic material, for example.
Advantageously, the tensioning member comprises a pin which engages an opening of the guide bar and in this way connects the tensioning member with form fit with the guide bar in the direction of the longitudinal center axis of the guide bar. Expediently, the threads of the threaded connection are trapezoidal threads, wherein the flank angles of the trapezoidal threads amount to from 0° to 60°.
Advantageously, the threaded section of the adjusting member and the threaded section of the tensioning member are comprised of plastic material, in particular of fiber-reinforced plastic material. In this way, the weight of the adjusting member and the weight of the tensioning member are comparatively low so that the total weight of the work device is reduced. Expediently, the adjusting member and the tensioning member are completely made of plastic material, in particular of fiber-reinforced plastic material.
Expediently, the work device is a power saw. It can also be expedient that the work device is a concrete cutter.
An embodiment of the invention will be explained in the following with the aid of the drawing. It is shown in:
The power saw 1 comprises a tensioning device 15 illustrated in
The guide bar 4 comprises a longitudinal slot 13. On the housing 6 a bolt 9 is secured which engages the longitudinal slot 13. The longitudinal slot 13 enables the movement of the guide bar 4 in the direction of the longitudinal center axis 18 of the guide bar 4. An actuating element 11 which comprises a nut 12 can be screwed onto the bolt 9. In the secured state illustrated in
The adjusting member 17 is rotatably supported about an axis of rotation 21 in the chain sprocket cover 10. The adjusting member 17 is connected by a threaded connection 20 with the tensioning member 16. Due to the threaded connection 20, turning of the adjusting member 17 about its axis of rotation 21 effects a movement of the tensioning member 16 in the direction of the longitudinal center axis 18 of the guide bar 4.
The adjusting member 17 comprises on its outer circumference a threaded section 22 with four thread turns 23. The tensioning member 16 comprises a threaded section 24. The threaded section 22 of the adjusting member 17 is provided for engagement of the threaded section 24 of the tensioning member 16 whereby the threaded connection 20 is formed. Upon turning of the adjusting member 17 about its axis of rotation 21, the tensioning member 16 moves in direction of the longitudinal center axis 18 of the guide bar 4. Since the tensioning member 16 is connected with form fit with the guide bar 4, the guide bar 4 together with the tensioning member 16 is adjusted in direction of the longitudinal center axis 18. In this way, the tension of the chain 5 is adjusted.
Once the desired tension of the chain 5 has been adjusted, the actuating element 11 is tightened on the bolt 9 by means of the molded-in nut 12 in the actuating element 11. In this way, the guide bar 4 is clamped between bolt 9 and nut 12.
The chain sprocket cover 10 comprises an opening 25 shown in
On the chain sprocket cover 10 in the area of the opening 25 an elevation 29 is provided which is formed monolithic with the chain sprocket cover 10. As shown in
As shown in
As also shown in
As shown in
As shown in
The longitudinal direction of the groove 41 extends in the embodiment parallel to the axis of rotation 21 (
The adjusting member 17 comprises a base member 44 with a cylindrical outer surface 45, wherein the cylindrical outer surface 45 is interrupted by the grooves 41 and the thread turns 23. The actuating contour 39 extends across the entire axial length of the cylindrical base member 44 of the adjusting member 17. Also, the threaded section 22 of the adjusting member 17 extends across the entire axial length of the base member 44 of the adjusting member 17, respectively. However, it can also be advantageous that the grooves 41 and the thread turns 23 extend only across a partial section of the axial length of the base member 44 and advantageously only partially overlap in axial direction. The actuating contour 39 comprises the greatest spacing a relative to the axis of rotation 21 which in the embodiment is of the same size as the greatest spacing b of the outer circumference of the threaded section 22 of the adjusting member 17 relative to the axis of rotation 21. The outer diameter D of the adjusting member 17, which in the embodiment is identical to the outer diameter of the outer circumference of the threaded section 22 of the adjusting member 17, advantageously amounts to at least 15 mm, in particular at least 20 mm.
As is shown in
The threaded section 22 of the adjusting member 17 (
As shown in
As shown in
On the side which is facing away from the flat side 48, the tensioning member 16 supports the pins 30 and the guide elements 31. As shown in
In the embodiment, the tensioning member 16 is a separate component. However, it can also be expedient that the tensioning member 16 is embodied as a part of the guide bar 4.
Number | Date | Country | Kind |
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10 2014 014 275 | Sep 2014 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2015/001833 | 9/12/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2016/045773 | 3/31/2016 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3382898 | Walker | May 1968 | A |
5070618 | Edlund | Dec 1991 | A |
5983508 | Sundstrom | Nov 1999 | A |
6049986 | Calkins | Apr 2000 | A |
8495819 | Okouchi | Jul 2013 | B2 |
Number | Date | Country |
---|---|---|
2002 036203 | Feb 2002 | JP |
WO 2004078435 | Sep 2004 | WO |
2005108030 | Nov 2005 | WO |
Number | Date | Country | |
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20170266834 A1 | Sep 2017 | US |