JPH02153296A - Drive mechanism for ceramics fan - Google Patents

Abstract

PURPOSE:To enable absorption of a difference in thermal expansion by a method wherein the both sides of the inner wheel of a ceramics impeller are formed in the shape of a taper, two balls are inserted in respective grooves parts formed in the back of a ceramics fan, and a power is transmitted through the balls. CONSTITUTION:In a ceramics impeller 1 mounted on a drive shaft 3 of a drive device 2 by means of a screw mechanism 4, the both sides of the inner wheel thereof are formed in the shape of a taper 5, groove parts 7 are radially formed in the back of a ceramics fan 6, and balls 8 are contained in the respective groove parts 7. A ring 10 made of a steel is energized through the force of a spring 9 so that a pre-load is always applied on the inner wheel side of the ceramics impeller 1. By transmission of a power from the driven device 2 to the ceramics impeller 1 through the balls 8, the ceramics fan 6 is driven and a difference in thermal expansion in a circumferential direction is absorbed.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a drive mechanism for a ceramic fan that fixes a ceramic impeller to a metal bearing and enables drive at high temperatures.

<Prior art and its problems> Conventionally, in the drive mechanism of a ceramic fan, when fixing a metal shaft and a metal impeller, the center of the impeller 21 is connected to the tapered surface 23 at the tip of the rotating shaft 22, as shown in FIG. A screwing mechanism 24 was further provided thereon.

Although not shown in the drawings, another drive mechanism method is often used in which a metal impeller insertion portion is carefully provided and only a screw tightening mechanism is used.

This type of ceramic fan is used for conveying, circulating, and stirring high-temperature gas of 400 to 700°C.

For example, stirring in drying ovens for drying painted products, exhaust gases (waste gases), especially corrosive gases and corrosive liquids,
It can be used as a fan for stirring pumps.

Recently, ceramic fans that operate in higher temperature gas have been put into practical use.

However, when using a ceramic impeller, the difference in coefficient of thermal expansion between the ceramic and the shaft material is greater than when using a conventional metal impeller (therefore, when using a ceramic fan, A unique structure with the shaft is required.

<Means for Solving the Problems> In view of the above, the present invention was obtained as a result of studies on a drive mechanism for a ceramic fan that uses a ceramic impeller and can be driven smoothly.

That is, the present invention is a ceramic fan drive mechanism, in which both sides of the inner ring of a ceramic impeller attached to a rotating shaft are tapered, a groove is formed on the back surface of the ceramic fan, and two balls are placed in the groove. The present invention provides a ceramic fan drive mechanism in which power is transmitted from the drive device to the ceramic fan through the inserted balls.

<Operation> Hereinafter, the present invention will be described with reference to the drawings. In FIG. 1, reference numeral 1 denotes a ceramic impeller attached to the drive shaft 3 of the drive device 2 by a screw mechanism 4.

The ceramic impeller 1 has a tapered shape 5 on both sides of its inner ring, and a groove 7 is formed in the radial direction on the back surface of the ceramic fan 6, as shown in FIG. Ball 8 is inserted. Incidentally, reference numeral 9 denotes a spring, which is used to always apply preload to the steel ring 10 toward the inner ring of the ceramic impeller 1.

11 is a casing support hardware, 12 is a casing side plate, 1
3 is an inverter motor.

Further, FIG. 4 shows an example of a ceramic impeller having eight blades 14.

The drive mechanism of the present invention has the above-mentioned configuration, and for power transmission, a groove is formed on the back surface of the ceramic fan, two balls are inserted into this groove, and power is transmitted from the drive device on the opposite side. The idea is to drive a ceramic fan by transmitting power to a ceramic impeller via balls.

The ball 8 transmits this power and also absorbs the difference in thermal expansion in the circumferential direction, and the ball 8 may be made of ceramic or steel.

Next, regarding the shaft attachment and drive mechanism of the ceramic fan when pressurizing high-temperature gas, since the circulating gas is high temperature, the ceramic impeller and shaft expand thermally. Therefore, sufficient care must be taken when fitting the ceramic impeller onto the metal shaft.

The coefficient of thermal expansion of ceramics is considerably smaller than that of metals.

Furthermore, since ceramics have high rigidity, they cannot elongate due to thermal stress. Therefore, when a ceramic impeller is attached to a metal shaft, the usual method of attaching a metal impeller to a metal shaft will result in destruction.

Therefore, it is necessary to consider a mounting method that absorbs elongation, provides concentricity, and provides sufficient tightening. Furthermore, since general keyway machining is not possible for power transmission,
This point also needs to be considered.

In view of the above, this invention has been developed by tapering both sides of the inner ring of the ceramic impeller as shown in Fig. 1 in order to absorb thermal expansion and obtain concentricity, and in addition, steel rings are attached from both sides. A spring is used to always apply preload to the inner ring.

As a result, changes in elongation between the shaft and the ceramic impeller inner ring can be dissipated by the axial movement of the ring through the taper.

Furthermore, by forming a groove on the back surface of the ceramic fan and inserting two balls into the groove, the balls transmit power from the drive device to the ceramic impeller and reduce thermal expansion in the circumferential direction. As a result of absorbing the difference, the ceramic fan can be driven smoothly at high temperatures.

[Brief explanation of the drawings] Fig. 1 is an explanatory diagram of the drive mechanism of the ceramic fan according to the present invention, Fig. 2 is an explanatory diagram of the drive mechanism of a conventional metal fan, and Fig. 3 is an explanatory diagram of the drive mechanism of the ceramic fan according to the present invention. FIG. 4 is an explanatory diagram showing an example of a ceramic impeller. 1... Ceramic impeller 2... Drive device 3... Drive shaft 4...
Screw mechanism 5...Taper 6...Ceramics fan 7...Groove 8...Ball
9...Spring lO...Steel ring
13...impark motor 14...blade

Claims (1)

[Claims] A drive mechanism for a ceramic fan, in which both sides of the inner ring of a ceramic impeller attached to a rotating shaft are tapered, a groove is formed on the back surface of the ceramic fan, and two balls are inserted into the groove. A drive mechanism for a ceramic fan, characterized in that power is transmitted from the drive device to the ceramic fan via the drive mechanism.