RU214996U1 - Mounting unit for fan blades - Google Patents

Abstract

The utility model relates to fan engineering, namely to the structural elements of axial fan impellers. The fastening unit of the fan impeller blades contains shanks 2 of the blades with legs 3 and a locking device in the form of a split disk, consisting of two parts with means for fastening the said shanks. On one side of the leg 3 of each shank, a conical flange 4 is formed, and on the other side, a protrusion 5 in the form of a truncated cone with grooves 6 located along the generatrix. The tool for fastening the shanks is made in the form of landing sockets formed along the edges of both parts of the disk. Each seat has a surface in the form of a truncated cone with grooves similar to the grooves 6 of the protrusion, and in the cavity formed by one of the grooves of the protrusion in the form of a truncated cone and one of the grooves of the seat, there is a locking element made in the form of a body of revolution. The technical result of the utility model is to provide the ability to adjust the angle of rotation of the impeller blades and securely hold them in this position.

Description

The utility model relates to fan engineering, namely to the structural elements of axial fan impellers.

A turbomachine impeller is known, containing a disk with grooves and blades mounted on it with cylindrical shanks fixed in the grooves by means of fasteners in the form of screws (RU 2018037, class E04D 29/32, published 15.08.1994).

The disadvantage of analog is that the details of this device must be highly accurate, so they are difficult to manufacture, and therefore expensive. In addition, the device does not provide the ability to change the angle of rotation of the blades.

Also known, selected as a prototype, is an axial fan impeller containing a carrier disk, several blades having a working side and provided with legs, and a pair of clamping blocks for fixing the legs of each blade. Each pair of clamping pads is located on both sides of the carrier disk and is fixed on it (RU 2426012, class E04D 29/38, published on 10.08.2011).

The disadvantage of the known device consists in a large number of complex parts: clamping pads, aprons, spacers.

The prototype also characterizes the difficulty in setting the angle of rotation of the blade, which will have to be produced according to a template or in a cradle, while it is necessary to make a set of cradles or templates for each required angle of rotation of the blade. There is also a risk of shifting the angle of rotation of the blade when pulling the bolts on the carrier disk.

In addition, internal stresses appear in forged parts during plastic deformation of the metal, and the thickness of the metal changes, which adversely affects the strength and reliability of the finished product.

The technical problem solved by the utility model is to improve the performance properties of the fan impellers.

The technical result aimed at solving this problem consists in providing the possibility of adjusting the angle of rotation of the impeller blades and holding them securely in this position.

The named technical result is achieved in the utility model using the following set of features.

As in the prototype, the attachment point of the fan impeller blades contains blade roots with legs and a locking device in the form of a split disk, consisting of two parts with means for fastening the blade roots.

In contrast to the prototype, on one side of the leg of each blade shank, a conical flange is formed, and on the other side, a protrusion in the form of a truncated cone with grooves located along the generatrix. The blade root fastening means is made in the form of landing sockets formed along the edges of both parts of the disk. Each seat has a surface in the form of a truncated cone with grooves similar to the grooves of the protrusion, and in the cavity formed by one of the grooves of the protrusion in the form of a truncated cone and one of the grooves of the seat, there is a locking element made in the form of a body of revolution.

At the end of the protrusion in the form of a truncated cone, near each groove, the corresponding designation of the blade rotation angle is applied.

Landing nests are evenly spaced along the edge of both parts of the disk.

The utility model is illustrated by drawings.

In FIG. 1 - shows the shank of the impeller blade (side view).

In FIG. 2 is a view along arrow A in FIG. one.

In FIG. 3 - one part of the fixing disk with half of the seats for the shanks of the impeller blades.

In FIG. 4 - impeller blades assembled with a fixing disk.

In FIG. 5 - section B-B in Fig. four.

The attachment assembly of the impeller blades includes blades 1 (Fig. 4), each of which consists of a working curved part and a shank 2, shown in Fig. 1-2. The shank 2 of the blade consists of a cylindrical leg 3, on one side of which, adjacent to the working part of the blade 1, a conical flange 4 is formed, and on the other side of the leg 3, which forms the free end of the shank 2, a protrusion 5 is made in the form of a truncated cone along the side surface which (generating a truncated cone) grooves 6 are made.

Fixing the shanks 2 of the blades 1 disc consists of two parts (discs) 7.1 and 7.2 directed towards each other (Fig. 3) having a small thickness. Along the edge of both parts 7.1 and 7.2 of the fixing disk, when they are superimposed on each other, landing sockets 8 are formed evenly spaced along the disk, having an inner surface that matches the shape of the surface of the shank 2 of each blade 1. Half of each landing socket 8 of one part 7.1 of the disk has an open the edges of the section 9 with a conical surface, the same shape as the flange 4 of the shank 2; a section 10 with a cylindrical surface, responsive in shape to the leg 3 of the shank 2 and a section 11 with a conical surface, responsive in the shape of the side surface of the protrusion 5 of the shank 2. In the section 11 of the seat 8, grooves 12 are formed, similar to the grooves 6 of the protrusion 5 of the shank 2. In the central part of both parts 7.1 and 7.2 of the fixing disk, a through hole 13 is made for attaching to the impeller hub.

In FIG. 5 shows an axial section of the shank attachment 2 of the blade 1 in the seat 8 formed by two parts 7.1 and 7.2 of the fixing disk superimposed on each other. When mounting the impeller, the desired angle of rotation of the blade 1 is selected, indicated from the end of the protrusion 5 near each groove 6 (Fig. 2). In the groove 12 of the half of the seat 8 on one part 7.1 of the disk, a locking element 14 is placed, made in the form of a body of revolution, for example, a small metal cylinder or ball, exactly the size of the cavity formed between the groove 6 of the protrusion 5 of the shank 2 and the groove 12 landing nest 8 (Fig. 5). Then, the shank 2 of the blade 1 is inserted into the specified half of the seat 8 so that the selected groove 6 on the shank 2 of the blade 1 coincides with the locking element 14, thereby fixing the angle of rotation of the blade 1. Next, the second part 7.2 of the disk is installed. Both parts of the disk are firmly connected to each other, for example, by bolting 15.

Due to the conical shape of the parts of the shank 2 of the blade 1 and the seat 8 on the fixing disk, a slight tension is created in the body of the cylindrical leg 3 of the shank 2, which ensures a tight and backlash-free fit of the shank 2 to the seat 3 of the fixing disk.

Claims (4)

1. Mounting unit for blades of a fan impeller, containing blade roots with legs and a fixing device in the form of a split disk, consisting of two parts with means for fastening the blade roots, characterized in that a conical flange is formed on one side of the leg of each blade root, and on the other side - a protrusion in the form of a truncated cone with grooves located along the generatrix, and the means of fastening the blade roots is made in the form of landing sockets formed along the edges of both parts of the disk, each of which has a surface in the form of a truncated cone with grooves similar to the grooves of the protrusion, while in the cavity formed by one of the grooves of the protrusion in the form of a truncated cone and one of the grooves of the seat, there is a locking element. 2. Attachment according to claim 1, characterized in that the locking element is made in the form of a body of rotation. 3. Mounting unit according to claim 1, characterized in that at the end of the protrusion in the form of a truncated cone, near each groove, the corresponding designation of the angle of rotation of the blade is applied. 4. The mount according to claim 1, characterized in that the landing slots are evenly spaced along the edge of both parts of the disk.

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