DE10248806A1 - Lubricating device for gear in preferably powered hand tool has lubricant passage located inside gearcase with opening level with meshing region of gearwheels, with small gap in front of this region - Google Patents

Abstract

The lubricating device for a gear (13), preferably in a powered hand tool such as a right angle grinder, has a lubricant passage (30) located inside the gearcase housing the intermeshing gearwheels and with an opening (31) level with the meshing region (20) of the gearwheels (14,15), with a small gap in front of this region, and opens out in such a way that the lubricant is first delivered onto one gearwheel and from this is transported towards the meshing region of the gearwheels.

Description

The invention is based on one Lubrication device for a gear, preferably in a hand machine tool, e.g. B. an angle grinder, the type defined in the preamble of claim 1.

In a known hand machine tool the gear is in the form of an angle grinder according to WO 02/06006 with an associated return conveyor for the Lubricants used there, e.g. B. fat, provided at least one with the ring gear of this gear revolving conveyor element that at least one radially over the outer peripheral surface of the Ring gears protruding Projection is formed, which has an inclined surface, the opposite the direction of rotation of the ring gear from the bottom to the top aslant increases. Lubrication is thus possible with simple, inexpensive means of the gearbox improved because the tooth flanks of the gears are better be wetted with lubricant, with a loss of lubricant through Leakage of the lubricant between the rim of the ring gear and the housing is avoided. Improving lubrication leads to longer transmission life and noise reduction. This advantage arises above all in the case of viscous to pasty lubricants customary to date, but hardly occurs with other oil lubrication systems which the lubricant has a lower viscosity.

Out DE-PS 638 128 a lubrication device for a gearbox for high-speed sewing machines is known which has a lubricant channel within a gearbox housing which contains meshing gearwheels, to which lubricant is supplied by means of a pump, which lubricant has previously run out of the gearwheels. The lubricant is discharged from the lubricant channel onto the gearwheels through an opening opening in the area of the gearwheels. The gearbox is designed as an angular gearbox with two bevel gears in engagement, the lubricant channel opening at a vertical distance above the one bevel gear which is rotatable about a horizontal axis. The lubricant is thereby dispensed in the vertical direction from above onto this one bevel gear. The majority of the amount of lubricant can run down the side of this bevel gear without coming into contact with the other bevel gear meshing with it.

The lubrication device according to the invention for a transmission, preferably in a hand machine tool, with the features in In contrast, claim 1 has the advantage of that over the returned lubricant at the height the area of engagement of the gear wheels with a small distance this engagement area and is fed such that both gears with Lubricants are applied, which due to the tooth mesh the gear wheels in Area of the meshing tooth flanks with a wide-area lubricating film results. This reduces the friction in the meshing area of the gear wheels, being a noise reduction is achieved. The reduced friction leads to less wear and to higher ones Life. The direct, targeted supply of lubricant achieved at the required The place has better cooling and therefore a softer one Run a hand tool equipped with such a gear result.

By the measures listed in the other claims are advantageous developments and improvements in the claim 1 specified lubrication device possible.

drawing

An embodiment of the invention is shown in the drawings and in the description below explained in more detail. It demonstrate:

1 2 shows a schematic top view of the underside of a housing part of a handheld power tool,

2 2 shows a schematic top view of the underside of another housing part of the hand power tool,

3 2 shows a schematic, partially sectioned side view of a gear of the hand power tool,

4 is a schematic plan view of the transmission in the direction of arrow IV in 3 .

5 is a schematic side view of the transmission similar to that in 3 ,

In 1 and 2 is only schematically a hand tool 10 shown, which consists for example of an angle grinder and from which in 1 a first housing part 11 and in 2 a second housing part 12 are visible. Both housing parts 11 and 12 lie in the assembled state of the hand tool machine 10 one another and are connected in the usual way by means of fastening elements. A hand machine tool 10 of this type, e.g. B. in the form of a motor-driven angle grinder is known in principle and does not need to be explained in detail in this regard. Both housing parts 11 and 12 can together z. B. form a gear housing, which is connected to a motor housing, not shown, in which an electric drive motor for driving a in 3 to 5 just schematically indicated transmission 13 is arranged. This gear 13 is here z. B. as an angular gear, in particular as a bevel gear, and has two meshing gears 14 and 15 on, one of which is a gear 14 is designed as a ring gear in the form of a bevel gear, while the other gear 15 as a conical pinion driven by the motor, not shown 17 is trained. The longitudinal central axes 18 respectively. 19 both gears 14 . 15 run at right angles to each other. The ring gear 18 drives a coaxial work spindle, not shown, to the end of which, in a manner not shown, a tool, e.g. Legs grinding wheel, pressed by a spindle nut and releasably attached.

In that from the housing parts 11 and 12 formed gear housing is a lubricant channel 30 arranged, that of the gear wheels 14 . 15 running lubricant, e.g. B. lubricating oil with low viscosity, is supplied under pressure, which from the lubricant channel 30 via one in the area of gear wheels 14 . 15 opening opening 31 on these gears 14 . 15 is delivered. The arrangement is such that the opening 31 of the lubricant channel 30 at the level of the intervention area 20 the gear wheels 14 . 15 at a short distance from this area of intervention 20 and opens out in such a way that the lubricant first onto a gear wheel 14 , especially ring gear 16 , is released and by the latter in its circulation in the direction of arrow 21 to the engagement area 20 both gears 14 . 15 is transported. In the area of intervention 20 becomes the lubricant between your teeth 22 or 23 of the gear wheels 14 or 15 pressed through. This leads to the area of intervention 20 the tooth flanks of the teeth 22 . 23 float on a large-area lubricating film generated there and have contact. The gear wheels 14 . 15 of the transmission 13 advantageously have a hypoid toothing, which occurs when the lubricant is supplied via the lubricant channel 30 additionally prevents the lubricant in an undesirable manner in the radial direction to the center, that is to the longitudinal center axis 18 flows out. This is also the case with the rotation of the gear wheel 14 in the direction of the arrow 21 through on this gear 14 effective centrifugal forces counteracted. The gear 13 in training as an angular gear, in particular as a bevel gear, further favored by the conical shape of the ring gear 16 and the pinion 17 the lubricant drains radially outward. How especially out 4 and 5 the opening opens 31 of the lubricant channel 30 at a distance from your teeth 22 the ring gear 16 , the opening 31 just before the teeth mesh 23 of the pinion 17 with teeth 22 the ring gear 16 opens.

The lubricant channel 30 is z. B. formed by a piece of pipe, piece of hose or the like. He shows one in 5 first channel section running below 32 , into which the lubricant is introduced under pressure, also one from the first channel section 32 outgoing, with a lateral distance from the one gear 14 , especially the ring gear 16 , running and up to the top of the teeth 22 reaching second channel section 33 and a third channel section 34 on that of the second channel section 33 goes out, with a distance over the teeth 22 of one gear wheel 14 , especially the ring gear 16 , is sufficient and approximately at the level of the engagement area 20 both gears 14 . 15 at a short distance from this area of intervention 20 with its opening 31 opens. In another embodiment, not shown, the lubricant channel 30 differently shaped.

A gear wheel 14 , especially the ring gear 16 , is on the side that is the teeth 22 bearing gear side opposite, in the housing part 11 a ring coat 24 assigned to the gear wheel 14 , especially ring gear 16 , forming an annulus 25 surrounds in between with a distance. The annulus 25 is used to catch the underside of the gear wheel 14 , especially ring gears 16 , collecting lubricant. The ring coat 24 is a peripheral discharge channel 26 opened that with the lubricant channel 30 is connected to the introduction of the lubricant in the latter. The lubricant channel 30 can be designed so that its first channel section 32 with the outflow channel 26 communicates.

One of the two gear wheels 14 . 15 , e.g. B. the ring gear 16 , Has means 40 for collecting the lubricant at least in the engagement area 20 the gear wheels on. As such a means of collecting lubricant is a ring 41 provided the one gear 14 , especially ring gear 16 , includes. The ring 41 is on this gear 14 attached, in particular pressed onto its outer peripheral surface by means of an interference fit. The in the direction of the longitudinal central axis 18 considered dimensioning of the ring 41 is chosen so that this teeth 22 of the gear wheel 14 , especially ring gears 16 , towering over the ring 41 at the same time the rear ring surface 27 the other gear 15 , especially Ritzels 17 , overlaps on the back. By means of the ring 41 becomes lubricant coming from the gear 14 runs radially outside, collected on the edge.

The hand machine tool 10 also has a return conveyor 35 for the lubricant on that with the lubricant channel 30 communicates. The return conveyor 35 points from a gear wheel 14 , especially from the ring gear 16 , driven and rotating with this conveyor elements 36 in the form of individual blades 37 on, preferably with this gear 14 are one-story. The funding elements 36 in the shape of the blades 37 are on the side of the gear wheel 14 arranged which of the teeth 22 bearing side against berliegt. There is only the outer edge area of the gear wheel 14 with such blades 37 Mistake. The ring 41 ends with its lower edge above the blades 37 so this with the housing part 11 , especially with the ring jacket there 24 , can form a pump approximately similar to a water pump.

When rotating the gear wheels 14 . 15 it will be in the area of intervention 20 between the teeth 22 . 23 Lubricant pressed through due to the ring 41 on the outer circumference of the gear wheel 14 collected in such a way that drainage occurs at least in the engagement area 20 to the outside via the gear wheel 14 is avoided. After passing the tooth flanks, the lubricant becomes after the engagement area 20 due to centrifugal and centrifugal forces radially outwards and against the inner surface of the walls of the two housing parts 11 . 12 flung, and the lubricant then collects on these walls. Due to the rotating movement of the gear wheel 14 and thus the funding elements 36 in the shape of the blades 37 becomes the lubricant on the bottom of the gear 14 recorded and in the outflow channel 26 promoted. From there, the lubricant passes through the lubricant channel 30 back to the level of the intervention area 20 and in front of this, the lubricant through the opening 31 of the lubricant channel 30 at a short distance from the area of intervention 20 on the teeth 22 load-bearing side of the gear wheel 14 is delivered. There is therefore a continuous lubricant cycle with direct, targeted lubricant supply at the required point. This reduces the friction in the area of engagement 20 , leads to improved cooling and a smoother running of the transmission 13 and the handheld power tool 10 in operation. Because of the area of engagement 20 forming lubricating film between the tooth flanks of the teeth 22 . 23 a reduction in noise is achieved and wear is significantly reduced with the associated longer service life and longer service life of the hand tool 10 , A further advantage is a low outlay for the lubrication device explained, and previous models of handheld power tools are also used 10 can be modified accordingly in a simple manner. Due to the reduction of the noises that occur during operation, the handheld power tool increases audibly in quality 10 , combined with the advantage that due to the lower noise level while working with the hand tool 10 Sources of danger are perceived more easily. Because when dealing with the hand tool 10 also sets a vibration reduction, it also runs smoother and is therefore more comfortable for the operator to handle.

In particular, a lubricating fluid, for example lubricating oil, with a low viscosity is used as the lubricant, the amount of the lubricant and the pressure strength with which the transmission housing is used 11 . 12 is filled with lubricant by injection, from the geometry of the return conveyor 35 be determined, for example by the number, size, angular position and profile shape of the blades 37 ,

It can be advantageous if the lubricant channel 30 at least one the flow rate of the lubricant conveyed therein and / or its exit rate from the opening 31 has increasing cross-sectional narrowing. This is not particularly shown in the drawings, but it is also understandable that such a cross-sectional constriction z. B. in the course of the first channel section 32 and / or second channel section 33 and / or third channel section 34 can be arranged at any particularly advantageous location. Such a narrowing of the cross-section would result in a design similar to a Venturi nozzle and has the advantage that, with very little effort, an increase in z. B. the exit velocity of the lubricant from the opening 31 is achieved.

It may also be advantageous if the lubricant channel 30 has a swirling agent on the inside of the lubricant conveyed therein, e.g. B. spirally extending grooves and / or webs, rifle-like trains or the like. This has the advantage that the lubricant when passing through the lubricant channel 30 is set in a certain rotation with the positive consequence that it comes out of the opening 31 Lubricants dispensed the tooth flanks of the gear wheels 14 . 15 wetted even better and more evenly.

Claims (14)

Lubrication device for a transmission ( 13 ), preferably in a hand machine tool ( 10 ), e.g. an angle grinder, with a lubricant channel ( 30 ) within one of the meshing gears ( 14 . 15 ) containing gear housing ( 11 . 12 ), whereby from the gear wheels ( 14 . 15 ) Lubricant draining off under pressure from the lubricant channel ( 30 ) is supplied and from the lubricant channel ( 30 ) in the area of gear wheels ( 14 . 15 ) opening ( 31 ) on the gear wheels ( 14 . 15 ), characterized in that the opening ( 31 ) of the lubricant channel ( 30 ) at the level of the intervention area ( 20 ) the gear wheels ( 14 . 15 ) a short distance from this area of intervention ( 20 ) and opens out in such a way that the lubricant is first applied to a gear wheel ( 14 ) and from there to the intervention area ( 20 ) the gear wheels ( 14 . 15 ) is transported. Lubricating device according to claim 1, characterized in that the gear ( 13 ) trained as an angular gear, in particular bevel gear det and that the opening ( 31 ) of the lubricant channel ( 30 ) at a distance from the teeth ( 22 ) of the crown wheel ( 16 ) and before the pinion meshes ( 17 ) with the ring gear ( 16 ) flows out. Lubricating device according to claim 1 or 2, characterized in that a gear wheel ( 14 ), especially the ring gear ( 16 ), Medium ( 40 ) to collect the lubricant at least in the engagement area ( 20 ) the gear wheels ( 14 . 15 ) having. Lubricating device according to claim 3, characterized in that as means ( 40 ) to catch the gear ( 14 ), especially the ring gear ( 16 ) comprehensive ring ( 41 ) is provided, which the teeth ( 22 ) this gear ( 14 ) protrudes and the lubricant that runs off collects it on the edge. Lubricating device according to claim 4, characterized in that the ring ( 41 ) on one gear wheel ( 14 ), especially ring gear ( 16 ), is attached, in particular is pressed onto its peripheral surface. Lubricating device according to one of claims 1 to 5, characterized by a with the lubricant channel ( 30 ) related return conveyor ( 35 ) for the lubricant. Lubrication device according to claim 6, characterized in that the return device ( 35 ) from a gear wheel ( 14 ), especially from the ring gear ( 16 ), driven and rotating conveyor elements ( 36 ) having. Lubricating device according to claim 7, characterized in that the conveying elements ( 36 ) from blades ( 37 ) are formed, and preferably that the blades ( 37 ) with the gear wheel ( 14 ), especially ring gear ( 16 ), are in one piece. Lubricating device according to claim 7 or 8, characterized in that the conveying elements ( 36 ), especially blades ( 37 ) on the teeth ( 22 ) facing away and there preferably only on the outer edge area of the gear wheel ( 14 ), especially the ring gear ( 16 ) are arranged. Lubricating device according to one of claims 1 to 9, characterized in that a gear wheel ( 14 ), especially the ring gear ( 16 ) on the teeth ( 22 ) a ring casing on the housing side ( 24 ) to form an annulus ( 25 ) for collecting lubricant, which is assigned to a peripheral discharge channel ( 26 ) which is connected to the lubricant channel ( 30 ) is related to the introduction of lubricant in the latter. Lubricating device according to claim 10, characterized in that the lubricant channel ( 30 ) one with the outflow channel ( 26 ) related first channel section ( 32 ), one from the first channel section ( 32 ) outgoing, with a lateral distance from a gear wheel ( 14 ), especially from the ring gear ( 16 ), the second canal section that extends up to the top of the tooth ( 33 ) and one from the second channel section ( 33 ) outgoing, at a distance over the teeth ( 22 ) of the gear wheel ( 14 ), especially the ring gear ( 16 ), reaching and approximately at the level of the intervention area ( 20 ) the gear wheels ( 14 . 15 ) a short distance from the area of intervention ( 20 ) with the opening ( 31 ) opening third channel section ( 34 ) having. Lubricating device according to one of claims 1 to 11, characterized in that the lubricant channel ( 30 ) at least one the flow velocity of the lubricant conveyed therein and / or its exit velocity from the opening ( 31 ) has increasing cross-sectional narrowing. Lubricating device according to one of claims 1 to 12, characterized in that the inside of the lubricant channel ( 30 ) the lubricant conveyed therein gives a swirl, z. B. spirally extending grooves and / or webs, gun barrel-like trains or the like. Lubricating device according to one of claims 1 to 13, characterized in that the gear wheels ( 14 . 15 ) of the gearbox ( 13 ) have hypoid teeth.