SE1550912A1

SE1550912A1 - Electric power tool

Info

Publication number: SE1550912A1
Application number: SE1550912A
Authority: SE
Inventors: GÖRAN JOHANSSON Karl
Original assignee: Atlas Copco Ind Technique Ab
Priority date: 2015-06-30
Filing date: 2015-06-30
Publication date: 2016-11-08
Also published as: US11701768B2; EP3317050B1; SE538749C2; US20180290284A1; JP6829713B2; KR20180023960A; KR102509250B1; WO2017001176A1; JP2018519178A; US20220152807A1; CN107848100A; CN107848100B; EP3317050A1

Description

Summary of the invention An object of the invention is to provide an electric power tool that makes it possible to replace parts of the power tool as modules while at the same time providing an efficient and liable power transmission.

This object is achieved by the invention according to claim l, which relates to an electric power tool comprising an electric motor connected to a motor gear; an output shaft connected to an input gear; a coupling that connects the motor gear to the input gear; and a housing that houses the motor, motor gear, coupling and input gear.

The coupling includes a shaft portion and two connective portions arranged at opposite ends of the shaft portion for connection to the motor gear and input gear, respectively, wherein at least one of the motor gear and the input gear has a cambered profile allowing a tilting movement of the coupling with respect to the axial position of the one of the motor gear and the input gear that has a cambered profile.

This arrangement has an improved tolerance to axial un-alignment of components involved in the power transmission with respect to conventional arrangements.

Further, with this arrangement the coupling may be easily adapted to different modules of different length by simply replacing the shaft portion of the coupling with a shaft portion of a different length.

Other features and advantages of the invention will be apparent from the independent claims and from the detailed description of the shown embodiment.

Short description of the drawings In the following detailed description reference is made to the accompanying drawings, of which: 10 15 20 25 30 Fig. 1 shows a power tool according to a specific embodiment of the invention; Fig. 2 is a sectional view of the power transmission of the power tool in fig. 1; Fig. 3 is a perspective cut view of a coupling in accordance with the invention; and Fig. 4 is an exploded view of a coupling in accordance with the invention.

Detailed description of the shown embodiment of the invention In fig. 1 a power tool according to a specific embodiment of the invention is shown. The shown power tool 10 is an electric torque delivering power tool that includes a motor 11, which is connected via a power transmission including a reduction gear 12 to an output shaft 13. A bit holder 14 is arranged on the outer end of the output shaft 13 for insertion of a screw or nut connectable bit.

The power transmission further includes a motor gear 15 that is driven by the motor 11 and connected via a coupling 17 to an input gear 16 of the reduction gear 12. A housing 18 is arranged to house the motor 11 and the power transmission. The output shaft 13 extends through a front end of the housing 18. In the shown embodiment a torsion spring 19 is arranged to take up reaction forces between the reduction gear 12 and the housing 18. The shown torsion spring 19 is a helical spring that is tightly fitted inside a tubular portion of the housing 18.

In figure 2 a sectional view of the power transmission of the power tool 10 is shown. In the shown embodiment the reduction gear 12 is a planetary gear driven by a sun gear 22 that is connected to the input gear 16 via a planet gear connection 33. An output gear 23 of the planetary gear is connected to the planet carrier (not shown) of the planetary gear. A gear rim (not shown) is arranged outside the planet carrier. The gear rim is arranged in a single bearing 24 with respect 10 15 20 25 30 to the housing. Hence, the gear rim is not fixed to the housing, but is arranged to rotate against the action of the torsion spring 19.

This is just an exemplary embodiment and the planetary gear may just as well be fully supported by the housing 18 and the torsion spring may be dispensed with. Inside of the torsion spring 19 the inventive coupling 17 that connects the motor gear 15 to the input gear 16 is shown.

The coupling 17 is shown in detail in figures 3 and 4. It includes a shaft portion 25 and two connective portions 26 arranged at opposite ends of the shaft portion 25 for connection to the motor gear 15 and input gear 16, respectively. The motor gear 15 is connected to a motor shaft 28 that is driven by the motor and the input gear is connected to a reduction gear via a reduction gear connection 33.

As is shown in figure 4 the motor gear 15 and the input gear 16 of the specific embodiment have cambered profiles allowing a tilting movement with respect to the axial position of the coupling 17. The cambered profile means that the toothed part of the gear has a radius that varies axially. The radius is as largest near the middle of the toothed gear and decreases in both directions from the maximum radius near the middle. The toothed gears 15 and 16 are to be arranged in meshing contact with the connective portions 26, which hence include a toothed or splined interior 32. The splined interior 32 includes straight splines with a same inner profile throughout its splined length. To achieve the best meshing interaction the curvature of the cambered teeth should have a part circular circumference that provides an equally good mesh with the splined interior 32 of the connective portions 26 irrespective of whether the connection is slightly tilted or perfectly straight.

In the shown embodiment both the motor gear 15 and the input gear 16 have a cambered gear profile. An effect is however achieved as soon as only one of the motor gear 15 and the input gear 16 has a cambered gear profile, allowing a tilting movement of the coupling 17 with 10 15 20 25 respect to the axial position of the one of the motor gear 15 and the input gear 16 that has a cambered profile.

Both the connective portions 26 include splines for meshing connection to the motor gear 15 and input gear 16, respectively. Advantageously, the splined connective portions 26 of the coupling are plastic parts that are fitted inside the shaft portion 25. Preferably the connective portions 26 are produced with a tight tolerance so as to be press fitted inside the end openings of the shaft portion 25. An advantage of a press fitted arrangement is that no adhesive is needed.

The shaft portion 25 may be tube shaped, but it may also, as in the shown embodiment comprise a solid midsection 27. The solid midsection 27 may function as an axial stop and support for the connective portions 26. Further though, each connective portion 26 may be provided with a rim 29 that also functions as an axial stop and support for the connective portions 26, such that the solid midsection 27 is not needed for that purpose.

The rims 29 comprise recesses 30, in which guides 31 of the shaft portion 25 fit so as to lock the connective portions 26 and the shaft portion 25 from mutual rotation. The guides 31 may also include grip ends (not shown) for locking the connective portions 26 axially to the shaft portion 25. Typically though, such grip ends are not needed since the tight fit between the shaft portion 25 and the connective portions 26 is tight enough to guarantee that they will remain locked to each other.

Above, the invention has been described with reference to a specific embodiment. The invention is however not limited to this embodiment.

It is obvious to a person skilled in the art that the invention comprises further embodiments within its scope of protection, which is defined by the following claims.

Claims

10 15 20 25 30 Claims

1. An electric power tool (10) comprising: - an electric motor (11) with a motor gear (l5); - an output shaft (13) with an input gear (16); - a coupling (17) that connects the motor gear (15) to the input gear (16); - a housing (18) that houses the motor (11), motor gear (15), coupling (17) and input gear, characterised in that the coupling (17) includes a shaft portion (25) and two connective portions (26) arranged at opposite ends of the shaft portion for connection to the (15) (16), wherein at least motor gear and input gear (15) respectively, (16) has a cambered (17) (15) one of the motor gear and the input gear profile allowing a tilting movement of the coupling with respect to the axial position of the one of the motor gear and the input gear (16) that has a cambered profile.

2. The electric power tool according to claim 1, wherein both the motor gear (15) and the input gear (16) have a cambered gear profile.

3. The electric power tool according to claim 2, wherein both the connective portions (26) include splines for meshing connection to the motor gear (15) and input gear (16), respectively.

4. The electric power tool according to claim 3, wherein the two opposed connective portions (26) of the coupling are plastic parts that are fitted inside the shaft portion (25).

5. The electric power tool according to claim 4, wherein the shaft portion (25) is tube shaped. 6. The electric power tool according to claim 5, wherein the connective portions (26) are press fitted inside the shaft portion (25). 7. The electric power tool according to claim 6, wherein the connective portions (26) comprise recesses (30), in which guides (31) of the shaft portion (25) fit so as to lock the connective portions (26) and the shaft portion (25) from mutual rotation. Patentansökan nr / Patent application No: 1550912-8 I följande bilaga finns en översättning av patentkraven till svenska. Observera att det är patentkravens lydelse på engelska som gäller. A Swedish translation of the patent claims is enclosed. Please note that only the English elaims have legal effect. Krav Ett elektriskt kraftverktyg (10) innefattande: en elektrisk motor (11) med ett motorkugghjul (l5); en utgående axel (13) med ett ingångskugghjul (16) en koppling (17) som förbinder motorkugghjulet (15) till det ingående kugghjulet (l6); ett hus (18) som inrymmer motorn (11), motorkugghjulet (15), kopplingen (17) och ingångskugghjulet, kånnetecknad av att kopplingen (17) innefattar en skaftdel (25) och två sammanbindande partier (26) anordnade vid motsatta ändar av axelpartiet för anslutning till respektive motorkugghjulet (15) och det ingående kugghjulet (16), varvid åtminstone ett av motorkugghjulet (15) och det ingående kugghjulet (16) har en böjd profil som tillåter en tipprörelse av kopplingen (17) med avseende på den axiella positionen för en av motorkugghjulet (15) och det ingående kugghjulet (16) som har en böjd profil. 2. Det elektriska motorverktyget enligt krav 1, varvid både motorkugghjulet (15) och det ingående kugghjulet (16) har en böjd kugghjulsprofil. 3. Det elektriska motorverktyget enligt krav 2, varvid både de san? nbindande partierna (26) innefattar splines för ikuggning till respektive moitcmfikugg'hjj 11.1.6211 (15) ocIh det .ir1<_;'å.san-:ie k.u<_;'g'š1jjul_eaï: (16) . 4. Det lektriska motorverktyget enligt krav 3, varvid de två motstàende samm>nbindande partierna (26) hos kopplingen är plastdelar som är monterade på insidan av skaftdelen (25). 5, Det elektriska motorverktyget enligt krav 4, varvid axelpartiet (25) är rörformad.

6. Det elektriska motoïverktyget enligt krav 5, varvic de sïmmanbindande 2 _11 païtierna ) är presspassat inuti skaftdelﬂn (25).

7. Det de sam.anbindande V' Ei. I' \J partierna (26) innefattar urtag (SJ), i vilk;n "rníngarna (31) hos J) passar for att låsa de sammanbindande delarna (26) och axelpartiet (25) fïån inböxdes rotation.