GB2163229A

GB2163229A - Inclined crank mechanism

Info

Publication number: GB2163229A
Application number: GB08420575A
Authority: GB
Inventors: Jozef Feliks Dembski
Original assignee: Individual
Current assignee: Individual
Priority date: 1984-08-14
Filing date: 1984-08-14
Publication date: 1986-02-19
Also published as: GB8420575D0; GB2163229B

Abstract

An inclined crank mechanism has an output shaft 9 which is rotated when a lug 8, connected to a housing 14 rotatably mounted on the inclined crank, is moved in a suitable manner. The housing 14 can pivot about an axis orthogonal to the axis of shaft 9, under the control of a pivoted crank arm 13 and a roller between two guide cheeks (Figs. 1, 2). <IMAGE>

Description

SPECIFICATION The rotator The mechanical arrangement of the rotator has the capability to turn the shaft.

When pressure is applied to the lug or thrust bar, the rotator will force the shaft to rotate.

An external power source is essential for applying the pressure on the lug or on the thrust bar.

This mechanical arrangement can be adapted to turn the shafts on some kinds of machinery, or it can be used instead of a crankshaft for an internal combustion engine, or for some other purposes.

In order that the invention may be more readily understood, reference is made to the accompanying drawings in which: Figure 1 is an exploded top view of the machine body showing the following parts: Thrust bearing housing, the arm with its thrust bar and opposite the bar with the support bracket, with the projecting lug (top lug is absent to enable a view of the roller), the hold and the output shaft.

Figure 2 shows the section on line A-A of Fig. 1.

Figure 3 shows the section on line B-B of Fig. 2.

With reference to Figs. 1, 2 and 3 respectively, is the view of the rotator together with the external body 1, with its base 6 and cover plate 2 secured with nut 3.

The shaft 9 is situated between the boss 7 and the hold 1 0.

The exploded part of the external body, on Fig. 1, enables one to view the rotator.

It comprises of an angled hold 10, which is fixed to the output shaft 9, see Figs. 1 and 3.

The hold 10 with the bore 39, is fixed to the shaft 9 and secured with a push pin lock 27, see Fig. 3.

The hold 10 is arranged with its pivot 1 6.

Ball bearings 28 and 38 are placed in the housing 14 and inserted on the pivot 16, followed by ring 19. The housing 14 and the ball bearings contained within are secured in position with a nut 1 5 and push pin lock 29.

The bearings 28 and 38 are separated and held in position by a circular stop 30. The bearing housing 14 is rotatable on the pivot 1 6 and is arranged with a lug 8.

The thrust bar 11 is fixed to the bearing housing and the other end rests on the ball bearing 26, in the arm 13, see Figs. 1 and 2.

The opposite bar 20 is also fixed to the bearing housing 1 4 and the other end with roller 21, rests on the projecting lug 17 and is secured with a nut 18.

The projecting lugs 1 7 and 23 are parts of the support bracket 4, which is inserted through the hole made on the right hand side face of the external body 1 and secured with nuts 5, see Figs. 1 and 2.

The arm 1 3 and the projecting lugs 1 7 and 23 prevent the bearing housing 14 from rotating.

When thrust or pressure is applied to the lug 8, or the the end bar 1 2 (which is part of the bar 11) in the direction indicated by the arrow (see Fig. 1 and Fig. 2) then the pressure will be transmitted to the arm 13, the projecting lug 23 and the pivot 16.

The roller 21 with its bar 20 and the arm 13, will turn/swing in either direction depending on the position of the pivot 1 6 and bearing housing 1 4.

The constant pressure on the lug 8 will force the bearing house body 14 and the arm 1 3 to swing constantly and activate the shaft 9 to rotate.

The arm 1 3 swings on its pivot 37 inside the bush 22. The bush is arranged with ball bearings 31 and 33.

They are separated from each other by a spacing collar 32.

The bearings are held in position by a circular stop 24 situated on the arm 1 3.

The pivot 37 rests with its end 34 on the thrust bearing 35.

The base 25 of the bush 22 is bolted to the external housing body 1, with bolts 36.

The rotator has a combination of supports comprising of a set of bar 11, the arm 13, turnable in the bush 22 and another set comprising of a bar 20, with the roller 21, movable on the projected lugs 1 7 and 23.

The rotator is also operative with only one set comprising of bar 11 and arm 1 3 arranged in a turnable position in the bush 22, without the opposite set comprising of bar 20 with roller 21, movable on projected lugs 1 7 or 23, or vice versa.

The rotator can also be arranged with a pair of bars 20, with rollers 21 each fixed opposite the bearing housing 14, with the rollers 21 movable on the projected lugs of support brackets 4 which are fixed on either side of the face of the external body 1.

1. The combined mechanism comprising of the hold with a pivot which contains a ring with a nut, the bearing housing with a lug containing bearings separated by a circular stop which are rotatable on the pivot of the hold, the thrust bar with the roller movable on the projected lugs, or thrust bar set on the turnable arm, the arm with its pivot movable in the bush which is set up with bearings separated by a spacing collar and turnable on the thrust bearing to withstand the thrust.

2. The rotator arranged with one set of bar and turnable arm in the bush without the opposite set of the bar movable with the roller on the projected lugs, or vice versa.

3. The rotator's arrangement with a pair of bars each of which is fixed opposite the

**WARNING** end of DESC field may overlap start of CLMS **.

Claims

**WARNING** start of CLMS field may overlap end of DESC **.

SPECIFICATION The rotator The mechanical arrangement of the rotator has the capability to turn the shaft.

When pressure is applied to the lug or thrust bar, the rotator will force the shaft to rotate.

An external power source is essential for applying the pressure on the lug or on the thrust bar.

This mechanical arrangement can be adapted to turn the shafts on some kinds of machinery, or it can be used instead of a crankshaft for an internal combustion engine, or for some other purposes.

In order that the invention may be more readily understood, reference is made to the accompanying drawings in which: Figure 1 is an exploded top view of the machine body showing the following parts: Thrust bearing housing, the arm with its thrust bar and opposite the bar with the support bracket, with the projecting lug (top lug is absent to enable a view of the roller), the hold and the output shaft.

Figure 2 shows the section on line A-A of Fig. 1.

Figure 3 shows the section on line B-B of Fig. 2.

With reference to Figs. 1, 2 and 3 respectively, is the view of the rotator together with the external body 1, with its base 6 and cover plate 2 secured with nut 3.

The shaft 9 is situated between the boss 7 and the hold 1 0.

The exploded part of the external body, on Fig. 1, enables one to view the rotator.

It comprises of an angled hold 10, which is fixed to the output shaft 9, see Figs. 1 and 3.

The hold 10 with the bore 39, is fixed to the shaft 9 and secured with a push pin lock 27, see Fig. 3.

The hold 10 is arranged with its pivot 1 6.

Ball bearings 28 and 38 are placed in the housing 14 and inserted on the pivot 16, followed by ring 19. The housing 14 and the ball bearings contained within are secured in position with a nut 1 5 and push pin lock 29.

The bearings 28 and 38 are separated and held in position by a circular stop 30. The bearing housing 14 is rotatable on the pivot 1 6 and is arranged with a lug 8.

The thrust bar 11 is fixed to the bearing housing and the other end rests on the ball bearing 26, in the arm 13, see Figs. 1 and 2.

The opposite bar 20 is also fixed to the bearing housing 1 4 and the other end with roller 21, rests on the projecting lug 17 and is secured with a nut 18.

The projecting lugs 1 7 and 23 are parts of the support bracket 4, which is inserted through the hole made on the right hand side face of the external body 1 and secured with nuts 5, see Figs. 1 and 2.

The arm 1 3 and the projecting lugs 1 7 and 23 prevent the bearing housing 14 from rotating.

When thrust or pressure is applied to the lug 8, or the the end bar 1 2 (which is part of the bar 11) in the direction indicated by the arrow (see Fig. 1 and Fig. 2) then the pressure will be transmitted to the arm 13, the projecting lug 23 and the pivot 16.

The roller 21 with its bar 20 and the arm 13, will turn/swing in either direction depending on the position of the pivot 1 6 and bearing housing 1 4.

The constant pressure on the lug 8 will force the bearing house body 14 and the arm 1 3 to swing constantly and activate the shaft 9 to rotate.

The arm 1 3 swings on its pivot 37 inside the bush 22. The bush is arranged with ball bearings 31 and 33.

They are separated from each other by a spacing collar 32.

The bearings are held in position by a circular stop 24 situated on the arm 1 3.

The pivot 37 rests with its end 34 on the thrust bearing 35.

The base 25 of the bush 22 is bolted to the external housing body 1, with bolts 36.

The rotator has a combination of supports comprising of a set of bar 11, the arm 13, turnable in the bush 22 and another set comprising of a bar 20, with the roller 21, movable on the projected lugs 1 7 and 23.

The rotator is also operative with only one set comprising of bar 11 and arm 1 3 arranged in a turnable position in the bush 22, without the opposite set comprising of bar 20 with roller 21, movable on projected lugs 1 7 or 23, or vice versa.

The rotator can also be arranged with a pair of bars 20, with rollers 21 each fixed opposite the bearing housing 14, with the rollers 21 movable on the projected lugs of support brackets 4 which are fixed on either side of the face of the external body 1.

1. The combined mechanism comprising of the hold with a pivot which contains a ring with a nut, the bearing housing with a lug containing bearings separated by a circular stop which are rotatable on the pivot of the hold, the thrust bar with the roller movable on the projected lugs, or thrust bar set on the turnable arm, the arm with its pivot movable in the bush which is set up with bearings separated by a spacing collar and turnable on the thrust bearing to withstand the thrust.

2. The rotator arranged with one set of bar and turnable arm in the bush without the opposite set of the bar movable with the roller on the projected lugs, or vice versa.

3. The rotator's arrangement with a pair of bars each of which is fixed opposite the bearing housing arranged with rollers, movable on the projected lugs.

4. The support bracket with its lug or lugs.

CLAIMS Amendments to the claims have been filed, and have the following effect: Claim 1 above has been textually amended.

New or textually amended claims have been filed as follows:

1. The bearing housing arranged with a lug on which an external power source is exerted across the axis of the shaft in order to rotate the inclined crankshaft; the combined mechanism comprising of the hold with a pivot which contains a ring with a nut, the bearing housing containing bearings separated by a circular stop which are rotatable on the pivot of the hold, the thrust bar with the roller movable on the projected lugs, or thrust bar set on the turnable arm, the arm with its pivot movable in the bush which is set up with bearings separated by a spacing collar and turnable on the thrust bearing to withstand the thrust.