SU540580A3 - Axial fan - Google Patents

Description

AXIAL FAN

(54)

Regularly regulating pzlts 5 and through them on the blades 3. A bearing 12 mounted eccentrically with respect to the drive shaft 2 can be used to reach the desired inclined position of the regulating shaft 8 and the disk 7. The disk 7 is connected to the impeller with the help of jagged elements (not shown ), therefore, it rotates at the same angular speed as the wheel.

The disk 7 is sobblets with respect to the fingers, therefore, in the groove 6 a sufficiently large gap is provided. When the blade is oscillated, the blades do not oscillate until the adjusting shaft 8 is displaced in the longitudinal direction.

In the axial fan shown in FIG. 3, the regulating disk 7 and the regulating fingers 5 are connected by means of the link 15. The play in this connection corresponds to the play in the groove 6 (see Fig. 1).

Figure 4 shows a fan with a rotational movement of the adjustment shaft. The adjusting fingers 5 engage with the notches 16 around the perimeter of the adjusting disk 7. This achieves the same effect as in the fan shown in FIG. 1. In the absence of adjustment movement, the disc 7 rotates with the wheel. Any point of the disk 7, if it is projected on a plane perpendicular to the shaft 2 of the impeller 1, when the disk is rotated, the ellipse appears. The speed of the point varies in such a way that it will be minimal when the specified ellipse is located on the short axis and maximum when placed on its long axis. This means that the notch 16 on the disk 7 during a certain part of one revolution rotates somewhat faster and somewhat slower during the rest of the revolution than the impeller, which leads to different action of the fingers.

In the fan shown in FIG. 5, the fingers 5 are connected to the adjusting disk 7 by means of the link 17.

In the fan shown in FIG. 6, the adjusting elements mounted eccentrically on the shanks 4 of the blades 3 are the teeth of the toothing rollers 18, and the adjusting disk 7 includes a gear rim 19 engaged with the gear rollers 18. In this case, the regulating shaft 8 is parallel to the drive shaft 2, but their axes one space apart.

Since the axis of the shaft 2 is the axis of rotation for the disk 7, the distance of any point of this disk from the axis of rotation during one revolution changes from a minimum to a maximum value. Since the angular velocity is constant, there are corresponding fluctuations in speed, due to forward and backward spins in relation to the impeller and in relation to the toothed rollers. Consequently, the effect will be the same as in the described versions of the fan.

In the fan shown in FIG. 7, fingers 5 engage with a groove on the disk 7, but with that

This means that the adjusting shaft 8 is only shifted and not rotated. It is mounted in the alignment with the drive shaft 2 and supported by two roller bearings 20 in a sleeve that can slide on the shaft 8. The disc 7 is guided by the bushing 21 sliding along the guide cylinder 22 mounted coaxially and rigidly inside the impeller 1. Disc 7 The spherical bearing 23 is supported at the end of the shaft 8, the outer ring of which is mounted centrally in the disk, and the inner ring is mounted on the eccentric end finger 24 on the shaft 8.

Due to the eccentric pin 24, the center of the disc is held on a line that does not coincide with the geometrical axis of the drive shaft 2. Bearing 21, sliding along the coaxial cylinder 22, guides the disc, and the latter takes an inclined position.

 The inner surface of the bearing 21 is bent in the transverse direction so that it contacts the cylinder 22 in a narrow area and with a movement of adjustment performs a helical movement on the cylinder, with the result that a significant reduction in friction is achieved compared to the movement of displacement.

In the fan shown in Fig. 8, the inclined control shaft 8 is stationary and cannot be rotated or shifted. One end of it is supported by a neutral bearing 25 in the impeller directly at the end of the drive shaft 2. At the other end, the shaft 8 is supported by an impeller in a bearing 26, which is also centrally mounted in the impeller, but is mounted on the shaft 8 with eccentric drilling or a coupling. The disk has a hub 27 with two roller bearings 28 on the clutch, which can be displaced on the control shaft 8 by means of fluid-controlled flow through the channel in the control shaft 8.

In the fan shown in FIG. 9, the shaft is supported in a central sliding bearing 9 mounted in a bore at the end of the drive shaft 2.

On the opposite side of the impeller, there is a central subcap 30, which allows the impeller to rotate on a fixedly mounted coupling 31, in which the shaft 8 is supported by a subclip 32 mounted in an eccentric bore of the coupling 31.

The tilt on most figures is somewhat exaggerated, especially in cases where the impellers have a large diameter, since usually the blades, if not caused by any special requirements, should not make any movement during the rotation and when no adjustment is made, t. e. if no adjustment is made, the gap in the joints and the elastic compression of the materials should be sufficient so that the relative movement between the regulating means and the work can take place

the wheel during rotation to compensate for an oblique position.

Similar results are obtained when fixing the disk 7 so that it can only perform axial movement during adjustment. The fingers 5 pass into the grooves 6, therefore it is necessary to reduce the friction, i.e. use rollers.

Claims (5)

1. An axial-flow fan with an impeller in the form of hinged pins mounted on a hub with eccentric shanks and a mechanism for alternately turning the blades, characterized in that, in order to reduce the adjustment force, the turning mechanism is a disk rotating with the wheel and mounted non-axially with the latter with the possibility of movement relative to the wheel by means of an adjusting shaft. 2. A fan according to claim 1, characterized in that the disk axis is angled to the axis of the impeller and intersects it. 3. Fan according to claim 1, characterized in that the disk axis is parallel to the axis of the impeller. 4. Fan tor on PP. 1 and 2, characterized in that the regulating shaft is mounted in bearings with the possibility of displacement in the axial direction. 5. Ventilator tor on PP. 1 and 2, characterized in that the adjusting shaft is mounted in bearings so that it can be rotated about the axis of the wheel. fPus-3 sixteen (Ri.5 IPUi.S eight 2