DE369436C - Circulation fan for hydrocarbon engines - Google Patents

Description

Circulating fans for hydrocarbon engines. The invention relates relies on a release device for circulation fans, especially in hydrocarbon engines.

The main purpose of the invention is to provide power to drive the fan to save. The latter is achieved through an automatic reduction in the effective drive of the fan brought about by the drive device as soon as the drive device reached a predetermined speed. A special purpose of the invention can be seen in the above result being achieved through a sliding coupling achieve their solution by overloading the clutch together with the outward Directional pressure of the fan is effected, with the latter effect a certain Time is given to release the coupling elements.

Another purpose of the invention is for effective lubrication the clutch.

The drawing shows an embodiment of the subject matter of the invention shown with a middle longitudinal section.

a is part of a hydrocarbon engine and i denotes the fan of this engine, which is freely arranged on a shaft 2. The latter is driven by the crankshaft through idler gears. The outer part 3 of the hub of the fan is freely arranged on an annular bearing flange 4 of a sleeve 5 which can slide in the longitudinal direction. The flange 4 is equipped with circumferential lubrication grooves 6 on its circumference. The sleeve 5 is keyed at 7 on the shaft and provided with a conical extension 8 which is separated from the part surrounding the shaft and which forms one element of a coupling. Between this conical part and a recessed rear flange 9 of the fan hub there is a conical bearing shell, preferably of bronze or similar material, for a purpose described later, and this shell is attached to the hub of the fan and forms the other element of a conical coupling. In the space between the bearing part of the sleeve 5 and the conical extension 8 there is a spring ii, the front end of which is supported against the sleeve and tends to bring the coupling element 8 into engagement with the coupling element io, while its rear end is against a retaining ring 12 is located. The latter, for its part, is again supported against an angular radial ball thrust bearing 13. The bearing 13 absorbs the pressure of the spring at low speed and acts as a radial thrust bearing at high speed, keeping the fan concentric to the shaft. An adjustable spacer ring 14 is provided between this bearing 13 and a second radial ball thrust bearing -15. An oil supply opening 16 is provided in a sleeve 17, and from this opening a branch line 18 leads to a duct ig extending in the longitudinal direction through the shaft and reaching through the front end of the latter, the pressurized oil being directed to the front part of the clutch chamber will. The oil then has to flow back from the front end of the coupling to the bearing surfaces of the fan hub and the sleeve flange and thus passes between the two coupling elements. The 01 then flows to the rear part of the coupling elements and to the bearings 13 and 15, the latter of which it reaches through the channel 2o. The 01 then passes from the bearings through an opening 2 i provided in a housing 22 back to the crankcase.

In use, when the motor and shaft: 2 are rotating at any speed below a set speed, the coupling element 8 is pressed into engagement with the other conical coupling element io with sufficient force to couple the two elements together and thus the fan at the same speed as the shaft, the angular bearing 13 acting as a thrust bearing to take up the pressure of the spring. As soon as the machine and the shaft reach a predetermined speed, it has this way. overload acting on the coupling elements tends to cause the two parts to slide on each other, and with this effect is associated the outward pressure of the fan at high speed, causing longitudinal movement of both coupling elements with respect to each other. As a result of these two forces, the sleeve 5 is pressed against the action of the spring inwardly with respect to the hub of the fan and the coupling elements slide on each other, whereby the force of the frictional engagement between the two coupling elements is reduced and the shaft can run faster than the fan. Due to the conical design of the coupling, the sliding effect is made possible in part by the pressure of the bearing, which means that the coupling elements are separated from one another at a specific point in time. As soon as the speed of the shaft decreases, the coupling elements are pressed against each other more forcefully and the fan then receives the same speed as the shaft again.

As the oil supply according to the suffering sets of bearings by the size the opening between the coupling elements is controlled, the oil supply is controlled these bearings increases automatically as soon as the shaft reaches a higher speed, as a result of the separation of the coupling elements from each other, whereby the channel for the C51 is enlarged.

Claims (6)

PATENT CLAIMS: i. Recirculating fans for hydrocarbon engines, thereby characterized in that the connection device of the fan with the motor shaft below the effect of the final pressure of the blower releasably and between the blower and its Drive device is arranged. 2. Blower according to claim i, characterized in that that the connecting device is designed as a coupling, which is under the ultimate pressure of the fan loosens and thereby reduces the friction contact of the clutch. 3. Blower according to claim i and 2, characterized in that the coupling in one Housing housed and the latter equipped with oil chambers at the front and rear is and means are provided for oil through the fan drive shaft back to the front of the chamber and through the coupling surfaces to the rear of the cabinet. Blower according to claims i and 3, characterized characterized in that the oil coming from the space behind the clutch after the bearings for the fan drive shaft, so that by separating the coupling surfaces from each other as the speed of the fan drive shaft increases Oil is supplied to the bearings of this drive shaft. 5. Blower according to claim i to 4., characterized in that an angular ball bearing the final pressure of the Fan receives and between the drive shaft for the fan and the housing is arranged for this shaft. 6. Blower according to claim i, q. and 5, characterized in that that the angular ball bearing between the fan drive shaft and its housing is arranged, with another bearing between the shaft and the housing one has a common oil channel and the latter housing a communicating with the channel Has oil outlet opening.