NO126268B - - Google Patents

Description

Swing mass starter.

In British patent document No. 780 062 there is described a swing mass starter including an exchange device which serves to transmit power between the flywheel of the starter and the crankshaft of a machine and comprises rotating input and output members which can perform limited angular movement and is connected by means of a coupling member which is arranged to rotate about a moving axis, and where the parts must be returned after each drive-transmitting movement, e.g. by means of a spring, to an initial position.

The present invention concerns a oscillating mass starter which is of the type mentioned and is characterized by a differential mechanism, one element of which is connected to the aforementioned rotating bodies to return these during an initial phase of the oscillating mass starter's work.

In a suitable embodiment, the differential mechanism, which is in connection with a drive device for turning the starter flywheel, is connected by means of one element to the said means and by means of another element is connected to an axially movable drive for engagement with the flywheel of a machine to be started , whereby the drive by means of the differential is transferred with preference (due to easier movement) to the said organs until they reach their returned position, beyond which they cannot move, whereupon the drive is then transferred to the drive to carry this to a position for engagement with the machine and/or for turning its crankshaft.

Thus, a first element of the differential is arranged to be driven together with the starter flywheel, while another element is arranged to return the said members and the third element of the differential is arranged to move a starter drive into engagement position when the second element is locked as a result of the organs reach their starting position. When the engaged position is reached, further transmission of power from the third element will cause the starter drive to turn the machine's crankshaft.

Preferably, the connection between the input device for operating the starter (hereinafter referred to as a crank) and the differential mechanism includes a two-speed exchange as well as a switching device which is affected by the devices essentially reaching their initial position, in order to reduce the translation ratio, so that the organs can be returned with relatively few revolutions of the crank, while the starter drive is then only slowly moved to the engagement position. This is desirable, because if the drive is brought quickly to the engaged position, it will then, by continuous rotation of its shaft, turn the machine relatively abruptly and possibly generate such high pressure that it is temporarily thrown out of engagement by the machine itself when it passes its top dead center position. The switching device for the exchange can be influenced by means of the aforementioned bodies, e.g. via a cam device. The two-speed exchange may be of the differential type, and the switching device may in that case comprise a coupling for locking together two of its elements.

The present invention also relates to a flywheel starter of the type mentioned, comprising a differential mechanism of which a first element is arranged to be driven by the crank, another to be driven by the starter's flywheel and the third to drive the aforementioned bodies back to their starting position and move the starter drive to the engaging position with the machine, and a coupling is used designed to lock two of the aforementioned elements together when the bodies essentially reach their starting position,

so that the velocity ratio for the third element

is reduced to that for the first time. The operation will

go with preference to the aforementioned bodies to

lead them back to the elements of the differential

are interlocked, after which operation will run in parallel

to the starter impeller and starter drive.

The invention will be described in more detail

with reference to the schematic drawing.

Fig. 1 shows a side view of a starter mechanism,

and

fig. 2 part of the same mechanism seen in

right angle to fig. 1.

The mechanism includes a starter flywheel 1

connected by means of a speed-increasing gear-gear exchange 2 including a gear-crown gear connection 3 where the crown gear is driven

of the outer element 4 (fig. 2) of a differential

5. The planetary elements 6 of this differential

operated with a crank 7, and the inner element 8

drives a screw 9. This engages with

a worm wheel 10 designed as part of the exterior

element of another differential 11 (fig. 1).

This planet wheel 12 is connected to bodies 13

at the aforementioned exchange device for

to return this, while the inner element 14

drives the suspended shaft 15 for a starter drive 16. The drive is thus driven into engagement

with a machine flywheel 17 and then rotates this

slowly after locking the organs 13 and thus

planetary gears 12.

Due to the inertia of the flywheel 1 is

the element 4 of the differential 5 to begin with

with practically maintained, and the operation goes to

the element 8 with the differential acting as

speed increasing exchange. A cam 18 is

forced to revolve with the elements 13, and

the associated cam follower 19 is spring-loaded

rod mechanism 20 is arranged to move

a coupling 21, wedged on the element 8, in order to

lock the elements 6 and 8 together when the bodies

13 have essentially been reinstated. Thereby, the speed of the element 8 is reduced to the speed

of the crank 7, at the same time as this is forced

to turn the flywheel 1 via the crown wheel-drive connection 3.

A manually controlled coupling 22 is arranged to

connect the flywheel 1 with the bodies 13

via the gears 2 (which now act as a speed-reducing gear) when the machine is to

is started.

Claims (7)

1. Swing mass starter including an exchange device that serves to transfer operating between the starter flywheel and the crankshaft of a machine and comprising rotating input and output means (13) capable of limited angular movement and interconnected by means of a coupling means adapted to rotate about a moving axis, characterized by a differential mechanism (5 or 11) one element of which (respectively 8 or 12) is connected to the rotating members (13) to return these during an initial phase of the swing mass starter's work. 2. Starter as stated in claim 1, where the differential mechanism (11) is connected to a drive device (7-9), and with one element (12) is connected to the rotating bodies (13), characterized in that another element (14 ) is connected to drive an axially movable drive (16), whereby drive via the differential is transferred with preference to the aforementioned bodies (13) until they are returned and thus locked, after which the drive is then transferred to the drive (16). 3. Starter as set forth in claim 2, characterized in that the connection between the starter's input drive (7) and the differential mechanism (11) includes a two-speed transmission (5, 21) and a speed changeover device (18, 19, 20) which is influenced in that the bodies (13) mainly reach their initial position, in order to reduce the operation's gear ratio to that of the other element (14). 4. Starter as stated in claim 3, characterized in that a mechanism with cam (18) and cam follower (19) is used to drive the exchange at the two speeds. 5. Starter as stated in one of the preceding claims, characterized in that the differential mechanism (5) includes a first element (6) which is arranged to be driven by a device (7) for operating the starter, a second element (4) to to turn the starter's flywheel (1) and a third element (8) to return the members (13). 6. Starter as stated in claim 5, characterized in that the differential element (8) for feeding back the organs (13) works via a further differential (11), one element (14) of which is arranged to drive the starter drive (16) to engagement position and turn a machine's crankshaft after the members (13) have been returned. 7. Starter as set forth in claim 6, characterized in that the first differential (5) acts with a clutch (21) as a two-speed exchange for the second differential (11) in accordance with claim 3 or 4.