DE202009002983U1 - Shaft drive device of a grass mowing machine - Google Patents

Abstract

Shaft drive device of a grass mowing machine, comprising:
a housing (10) having an upper half (10a) and a lower half (10b);
a shaft (30) passing through the upper and lower halves (10a, 10b);
a drive wheel (60) made of nylon and fibers by injection molding and rotatably mounted on the shaft (30), and wherein the drive wheel (60) is provided with a worm gear (62) and a first gear (64);
a movable wheel (50) made of nylon and fibers by injection molding and rotationally limited position on the shaft (30) is arranged, wherein the movable wheel (50) with an annular groove (51) and a second toothing (53) is provided and wherein the second toothing (53) and the first toothing (64) correspond to each other;
a clutch (40), which is located in the housing (10) and for the engagement or disengagement of the drive wheel (60) and the movable wheel (50) in the shaft ...

Description

The The invention relates to a grass mowing machine, in particular a Specially designed shaft drive device that works with one actually for driving a cutting member on the grass mowing machine provided energy source can be well connected, so that the Shaft drive device is not only structurally simpler, but also a better power transmission option offers.

Usually only becomes the cutting element of a traditional grass mowing machine powered by an energy source. So the operator is forced to move them with their own physical strength at work, which is often a heavy body burden for means the operator, especially if a size Area to mow is.

In order to solve the problem, the inventor of the present invention has set his development goal to offer a self-propelled grass mowing machine. Thanks to his research work, a "shaft drive device for self-propelled mower" from the DE 20118336.6 known. In this case, the shaft drive device transmits the force on the friction principle, with two transmission cone firmly press their conical surfaces each in a conical bore, so that the shaft of a grass mower is driven with.

adversely However, it is in this solution that the drive parts due to mutual wear and increased working temperature while working has a relatively short lifespan, because the power transmission to the friction principle two conical surfaces takes place. In addition, the power transmission in such a construction relatively slow, because they are too many Drive elements must be made. That's why the mentioned drive technology constructive still improve.

Of the Invention is based on the main task for grass mowing machine to offer a shaft drive device that the above Avoids problems.

These The object is achieved by a shaft drive device of a grass mowing machine, the having a housing. A wave, both sides each attached with a bearing on the bearing shells of the housing is inserted through the housing. On the wave is a drive wheel rotatably mounted by means of a bearing. The drive wheel has a plurality of teeth, which only in one Direction can interlock and in the following as first interlocking be designated. On the shaft, a movable wheel is positioned, whose Direction of rotation is limited to a certain direction. The movable wheel also has a plurality of teeth, which mesh only in one direction and subsequently as a second toothing be designated. The second gearing is the first gearing opposite and can intervene in it. In the case is still a clutch installed, for coupling or decoupling the movable wheel with the drive wheel ensures. There is also a worm that turns the drive wheel in rotation offset, installed in the housing, the drive shaft the worm protrudes through the housing. Once the clutch is coupled If, an axial displacement occurs between the movable wheel and the shaft on, so that the movable wheel in the drive wheel engages and rotates the shaft synchronized. Such an inventive Construction is not only structurally better strength on, but also in the function a relatively better power transmission.

in the The invention and its embodiments are described below explained in detail the drawing. In the drawing shows:

1 a perspective view of a shaft drive device according to the invention a grass mower;

2 an exploded perspective view of a shaft drive device according to the invention a grass mower;

3 a perspective view of a movable wheel according to the invention;

4 a schematic representation of the movable wheel according to the invention;

5 a perspective view of a drive wheel according to the invention;

6 a schematic representation of the drive wheel according to the invention;

7 a schematic representation of the shaft drive device according to the invention in the idle state; and

8th a schematic representation of the shaft drive device according to the invention in the operating state.

Referring to 1 There is a shaft drive device 100 a grass mower from a housing 10 , a driven pulley 20 , a wave 30 and a clutch 40 , Powered by an energy source, not shown in the drawing, the driven pulley 20 set in rotational motion, the clutch 40 makes sure that the wave 30 through the driven pulley 20 is taken into the rotary motion.

The 2 shows an embodiment of this invention, wherein the housing 10 from an upper half 10a and a lower half 10b consists. At the top half 10a is a mounting hole 11 intended. The two halves 10a and 10b together form a closed reception room 13 , in which lubricating oil is filled. The oil filling takes up about 40% of the space 13 and is used for cooling, lubrication and cleaning of the machine parts. Down at the bottom of the room 13 is an outstanding recording seat 14 arranged.

Above the upper half 10a is a driven pulley 20 with the outstanding drive shaft of the worm 21 connected, so that the snail 21 together with the driven pulley 20 with rotates when the latter is driven by the power source.

The wave 30 is located between the two halves 10a and 10b , In the middle of the intended location of the shaft are several mounting holes 31 attached, the number in this embodiment is two. Two U-shaped limit pieces 32 are fixed so that their two ends each in a mounting hole 31 are plugged in. The attachment can be done either mechanically or by an equivalent method.

The coupling 40 consists of a pull lever 41 , a driver 44 and a tension spring 42 , wherein the tension spring at one end with the upper half 10a and at the other end with the pull lever 41 connected is. At one end of the pull lever 41 is a sleeve 43 that a notch 431 has, axially formed, which is rotatable in the mounting hole 11 on the housing half 10a is attached.

The driver 44 has at its bottom side a lower connector 443 on, the pluggable in the receiving seat 14 on the lower half of the housing 10b is installed. At the top of the driver's head is an upper connector 441 provided in the sleeve 43 on the pull lever 41 plugged in, so that the driver 44 on the pull lever 41 is positioned and together forms a whole.

The driver 44 is formed on its opening side so that an upper hook 442 and a lower hook 442 together form a C-shaped shape, which is for a clamping connection with the movable wheel 50 provides. The mobile wheel 50 has around its outer edge an annular groove 51 on, in which the driver 44 is recorded. Due to the two hooks 442 of the driver 44 becomes the moving wheel 50 limited to a specific location. Will the pull lever 41 pulled with a force becomes the driver 44 pivoted. When the traction is gone, the tension spring brings the driver 44 back to his original place.

3 Fig. 12 is a schematic view of a movable wheel of the present invention. The mobile wheel 50 has a shaft hole in the middle 52 so it's on the shaft 30 attached and then can be attached. On one side of the movable wheel are four teeth called second teeth 53 formed, each having a high end and a deep end. At each of the teeth is a plurality of cooling holes 54 educated.

As the 4 shows, owns the movable wheel 50 one positioning groove on each side 55 , each up to the shaft bore 52 is cut through. Outside the shaft hole 52 are still some slots 56 drilled. If the driver 44 pans, the moving wheel can 50 - due to the boundary pieces 32 that are in the positioning grooves 55 are included - only axially on the shaft 30 be shifted, the direction of rotation of the shaft is also limited.

On the wave 30 is still a drive wheel 60 rotatably attached to the movable wheel 50 faces. The drive wheel 60 serves to interlock with the screw 21 and turns with the slug 21 together.

As the 5 shows, has the drive wheel 60 over a shaft bore 61 for rotatable mounting on the shaft 30 serves. At one end of the drive wheel 60 is a worm wheel 62 designed to be geared to the snail 21 serves. At the other end of the drive wheel 60 are four teeth designated as first teeth 64 formed, each having a plurality of 65 having.

In the 6 it is to be seen that a majority of the oblong holes 63 around the shaft bore of the worm wheel 62 on the drive wheel 60 is trained.

Because the first gearing 64 of the drive wheel 60 the second gearing 52 of the moving wheel 50 facing each other, they can engage with each other when the movable wheel is axially displaced. Thereby it is realized that the drive wheel 60 the mobile wheel 50 with in rotating motion, so that the shaft 30 synchronized can turn.

Both the mobile wheel 50 as well as the drive wheel 60 are made by a so-called extrusion process, namely from a ge mixed material which consists of 70% -80% of nylon and 30% -20% of fibers / fibers, therefore they have both a high temperature resistance and a high strength. The attachment of the slots 56 . 63 and the cooling holes 54 . 65 not only results in material savings and weight reduction, but also increases the cooling surfaces of the wheels in working condition. At the same time, this attachment will contribute to the fact that workpieces are not deformed in the extrusion process due to uneven cold shrinkage or cooling.

The 7 shows the idle state of a shaft drive device according to the invention. If the driver 44 is in its normal state, is the movable wheel 50 from the drive wheel 60 separated with a certain distance. So is the drive wheel 60 - As the dashed lines shown - in an idle state. In this state is the shaft 30 at rest, because the mobile wheel 50 she does not drive.

In the 8th on the other hand, the drive state of a shaft drive device according to the invention is shown. If the driver 44 is brought to its operating point, the movable wheel 50 through the driver 44 axially to the drive wheel 60 shifted, so that the two wheels intermesh. This realizes that the drive wheel 60 first the driving force on the moving wheel 50 , and then by the moving wheel 50 on the wave 30 transfers, so the shaft 30 - As shown in the drawing with dashed lines - is driven in rotation.

According to the invention, the drive wheel 60 the shaft drive device configured so that its worm wheel 62 with the first gearing 64 is made integral as a unitary whole, greatly simplifying the whole construction of the shaft drive device. Compared to a known, traditional shaft drive device, the force is first applied to the worm in the order 21 , then on the drive wheel 60 and the mobile wheel 50 and finally transferred to the shaft, which greatly reduces unnecessary energy consumption.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 20118336 [0003]

Claims (10)

A shaft driving apparatus of a grass mowing machine, comprising: a housing ( 10 ), which is an upper half ( 10a ) and a lower half ( 10b ) having; a wave ( 30 ) through the upper and lower half ( 10a . 10b ) passes through; a drive wheel ( 60 ) made of nylon and fibers by injection molding and rotatable on the shaft ( 30 ), and wherein the drive wheel ( 60 ) with a worm wheel ( 62 ) and a first gearing ( 64 ) is provided; a movable wheel ( 50 ) made of nylon and fibers by injection molding and rotationally limited in position on the shaft ( 30 ), wherein the movable wheel ( 50 ) with an annular groove ( 51 ) and a second toothing ( 53 ), and wherein the second toothing ( 53 ) and the first gearing ( 64 ) correspond to each other; a coupling ( 40 ) located in the housing ( 10 ) and for the engagement or disengagement of the drive wheel ( 60 ) and the movable wheel ( 50 ) into the wave ( 30 ) or provides for this; and a snail ( 21 ) whose one end is connected to a power source of the grass mowing machine and the other end to the worm wheel ( 62 ) of the drive wheel ( 60 ) engages the drive wheel ( 60 ) in rotation, wherein an axial displacement of the movable wheel ( 50 ) on the shaft ( 30 ) by operation of the clutch ( 40 ), and wherein the movable wheel ( 50 ) with the drive wheel ( 60 ), whereby the shaft ( 30 ) is simultaneously rotatable. Shaft drive device according to claim 1, characterized in that the first and the second toothing ( 64 . 53 ) each with a plurality of cooling holes ( 65 . 54 ) are provided. Shaft drive device according to claim 1, characterized in that the first and the second toothing ( 64 ) each have a high end and a deep end. Shaft drive device according to claim 1, characterized in that the shaft ( 30 ) on both sides, each with a limiting piece ( 32 ), wherein the shaft bore ( 52 ) of the movable wheel ( 50 ) on both sides in each case via a positioning groove ( 55 ), so that the movable wheel ( 50 ) on the boundary pieces ( 32 ) the wave ( 30 ) is placed so that the movable wheel ( 50 ) can be moved in the axial direction and limited in position in the direction of rotation. Shaft drive device according to claim 4, characterized in that the limiting piece ( 32 ) Is U-shaped, wherein the shaft ( 30 ) several mounting holes ( 31 ), in which the two end portions of the limit pieces ( 32 ) intervene. Shaft drive device according to claim 1, characterized in that the coupling ( 40 ) from a pull lever ( 41 ), a driver ( 44 ) and a tension spring ( 42 ), wherein the pivoting movement of the driver ( 44 ) from one end of the pull lever ( 41 ), and wherein the driver ( 44 ) in the annular groove ( 51 ) of the movable wheel ( 50 ) is locked so that the movable wheel ( 50 ) axially displaceable and in the drive wheel ( 60 ) is engageable, and wherein the movable wheel ( 50 ) and the drive wheel ( 60 ) in the normal state under the action of the tension spring ( 42 ) are decoupled from each other. Shaft drive device according to claim 6, characterized in that the pull lever ( 41 ) a sleeve ( 43 ), in which a notch ( 431 ), wherein the driver ( 44 ) above an upper connector ( 441 ), which is in the sleeve ( 43 ) intervenes. Shaft drive device according to claim 6, characterized in that the driver ( 44 ) below via a lower connector ( 443 ), the lower half ( 10b ) below with a receiving seat ( 14 ), in which the lower connecting piece ( 443 ) intervenes. Shaft drive device according to claim 6, characterized in that the driver ( 44 ) C-shaped, wherein an upper and a lower hook ( 442 ) on the opening side of the driver ( 44 ) are arranged and in the annular groove ( 51 ) of the movable wheel ( 50 ), which causes an axial displacement of the movable wheel ( 50 ) promoted by force. Shaft drive device according to claim 1, characterized in that the upper and the lower half ( 10a . 10b ) a closed reception room ( 13 ) form, is filled in the lubricating oil.