RU195266U1 - Axial fan impeller - Google Patents

Abstract

The utility model relates to the field of fan engineering, in particular, to the impellers of axial fans (hereinafter referred to as RK) and can be used to create new designs of fan units for enterprises of the chemical, petrochemical and other industries. The technical result of the utility model is the creation of a RK that meets the modern level fan engineering according to technical and economic indicators, the manufacturability of its manufacture. The specified technical result in the implementation of the utility model is achieved in due to the fact that in the RK containing the hub, bolted to it with flat ends attached to it with the possibility of rotation relative to the hub of the adapter with blades fixed on them, the hub is made of a workpiece having the shape of a round cylinder with the number of mating surfaces evenly distributed over the workpiece, equal to the number of adapters to be connected. Each adapter is assembled in one piece from the unified form-forming elements in the form of a bar of constant cross-section and two overlays - each in shape in the form of a straight line an angular parallelepiped, paired with a beam placed between them, using a bolted connection with a puff. The lateral faces of the linings form the end face of the adapter adjacent to the bonding surface of the hub, and to which it is fastened with two bolts with a tightening. a through hole is made, and a second groove is made in the second overlay, the midline of which is an arc of a circle with a radius equal to the distance between the centers of the bolt holes and the bolt in the through hole is the axis for rotation of the adapter relative to the hub. Structural and technological solutions embedded in the design of the impeller contribute to the expansion of the range of the Republic of Kazakhstan to the required dimensions, which are determined by the specific tasks of a particular enterprise.

Description

The utility model relates to the field of fan engineering, in particular, to the impellers of axial fans and can be used to create new designs of fan installations for enterprises in the chemical, petrochemical and other industries.

The impeller of an axial fan is known from the prior art (see the description of the invention for USSR copyright certificate No. 922324, class F 04D 29/32, published April 23, 1982 Bull. No. 15), containing a disk with cylindrical grooves, in which with the help of embedded elements, conical spring-loaded shanks of the blades are installed, and annular grooves with split snap rings installed in them are made in the walls of the grooves of the disk and in the embedded elements.

However, the disadvantage of this impeller is the complexity of the design, the complexity of its assembly and insufficient reliability due to the presence of moving parts.

The closest in technical essence and the achieved result to the claimed utility model is a fan, disclosed in patent RU No. 2113626, class. F 04D 19/00, F 04D 29/32 published on 06/20/1998

Given the terms used in fan building, in this case, the patent technically incorrectly indicates the impeller of the axial fan as “fan”.

Terms with corresponding definitions used in this context throughout the description, including the utility model formula:

The term "axial fan" should be understood as a fan in which the direction of the meridional flow rate of the gas-air mixture at the entrance to the impeller and the exit of the impeller is parallel to its rotation axis. [1]

The term "fan impeller" should be understood as the rotating part of the fan, in which mechanical energy is transmitted to the air through the dynamic action of its blades. [2]

The term "fan housing" should be understood as the part of the fan in which the impeller rotates. [3]

The term "round cylinder" should be understood as a cylinder that is both straight and circular. [4]

The term "mating surfaces" should be understood surfaces that are in contact with the surfaces of other parts, but not being covered or covering. [5]

The term “rectangular box” should be understood as a straight box, in which all six faces are rectangles. [6]

The term "central angle" should be understood as the angle in the circle formed by two radii. [7]

In connection with the foregoing, according to the aforementioned patent, not the “fan”, but the impeller of the axial fan contains a shaft, a hub, fastened to the hub of the adapter with eyes, installed in the adapters by their shanks of the blade with the possibility of changing the angle of their installation. The end face of each adapter is made flat, the hub is made in the form of a regular polygon, to the faces of which the flat ends of the adapters are attached, and their fastening is made in the form of a central bolt connection and additional bolt connections, the holes in which the bolts in the adapters are made in the form of grooves.

A disadvantage of the known device adopted for the prototype is its low manufacturability, caused by the shape of the adapters and eyes, which leads to an increased cycle and the complexity of their manufacture, low utilization of the material, the complexity of the work during its installation and operation.

A disadvantage of the known device is the lack of information about the relationship of the geometric parameters of the parts of the impeller, which does not allow it to be created without additional research.

The problem, the solution of which the claimed technical solution is directed, is to expand the arsenal of technical means in this area, as well as to increase the technical and economic indicators of the axial fan impeller by reducing the metal consumption and the complexity of manufacturing the structure.

The technical result is to expand the arsenal of technical means in this area, to obtain an impeller of an axial fan that meets the current level of fan building in terms of manufacturability, simplifying its installation and dismantling as part of a fan installation.

The specified technical result in the implementation of the utility model is achieved due to the fact that the impeller has an axial fan containing a hub, bolted to it with flat ends with the possibility of rotation relative to the hub of the adapter with blades fixed to them, the hub is made of a blank having the form a round cylinder, while its height Нз is in the dimensional range of 80-175 mm, and its diameter has a dimensional ratio Dз = 2Нз-3Нз with the number of mating surfaces uniformly distributed over the hub, equal to the number of adapters to be connected from 3 to 8, and formed by sections of the body of a round cylinder by planes passing at a distance in the dimensional range from 5 to 15 mm from its surface at an angle in the dimensional range from 0 to 3 degrees to the generatrix, and rotary the adapters are made of standardized forming elements in the form of a bar, made in cross section in the shape of a rectangle, while its thickness h is in the dimensional range of 5-20 mm, the width has a dimensional ratio of b = 5h - 10h, and its o length L has a dimensional ratio L = 0.12Drk - 0.25Drk, where Drk is the diameter of the impeller, and two overlays are shaped like a rectangular parallelepiped with a dimensional ratio of length 1.1b: 0.5b, width 0.5b: 0 6b and a height of 0.4b: 0.75b each, coupled with a bar placed between them, using a bolted connection with a puff, while the side faces of the plates form a flat end face of the adapter adjacent to the bonding surface of the hub, and to which with two bolts with a puff, it is attached, and the possibility of turning the adapter relative to the hubs is ensured by the fact that for the mounting bolts located coaxially to the longitudinal axis of the beam, a through hole is made in one of the plates, and a through groove is made in the second plate, the middle line of which is in shape a circular arc with a radius equal to the distance between the centers of the holes for the mounting bolts I having a dimensional ratio I = 0.5Hz-0.75Hz, and a central angle α within the dimensional range of 3-15 degrees, the bolt in the through hole being the axis of rotation of the adapter.

The essence of the utility model is illustrated by graphic materials, which depict the following:

In FIG. 1 shows a layout of an impeller that has at least three blades. An example is a four-blade impeller;

In FIG. 2 shows parts and subassemblies of the impeller;

In FIG. 3 shows the unified form-forming elements of the adapter;

In FIG. 4 shows section AA in FIG. 1;

The list of items for the description of the utility model:

1. The hub.

2. Adapter mounting bolts.

3. The adapter.

4. The blade.

5. The mounting surface of the hub with holes for mounting the adapter.

6. Bar adapter.

7. Cover plate with hole.

8. Cover plate with groove.

9. Bolts for assembling the adapter.

10. Through hole.

11. The groove.

12. Bolts for mounting the blades on the adapter.

The list of designations for the description of the utility model:

1. Dz - the diameter of the workpiece hub.

2. Nz - the height of the workpiece hub.

3. Drk - the diameter of the impeller.

3. h - beam height.

4. b - beam width.

5. L is the length of the beam.

6. α is the central angle of the arc of the midline of the groove.

7. I - the distance between the centers of the holes for the bolts of the adapters.

The impeller of the axial fan contains a hub 1, bolted 2 to it with a tightening adapter 3 with blades 4 fixed to them.

 According to a utility model, the hub is made of a billet having the shape of a round cylinder with a height H3, which is in the dimensional range of 80-175 mm, and its diameter, which is geometrically dependent on the height, has a size ratio Dз = 2Нз-3Нз.

The specified size Нз is determined by the geometric dimensions of the working end of the output shaft of the impeller drive, on which it is installed during the assembly of the fan unit.

The dimensional ratio Dz allows, in each specific case of manufacturing the hub, to fulfill the required number of mating surfaces 5 evenly distributed over it, the number of which is equal to the number of adapters to be connected from 3 to 8 (Fig. 2 shows the hub of a 4-blade impeller as an example).

The bonding surfaces are formed by sections of the body of a round cylinder by planes passing at a distance in the dimensional range from 5 to 15 mm from its surface at an angle in the dimensional range from 0 to 3 degrees to the generatrix. The above dimensions allow you to get a platform for mounting adapters on the hub of the required size with a minimum amount of machining.

Swivel adapters 3 are made of standardized forming elements in the form of a beam 6 and plates 7 and 8.

 The beam 6 is made in cross section in the shape of a rectangle. Its thickness h is in the range of 5-20 mm, and the width has a size ratio of b = 5h - 10h. The length of the beam L has a dimensional ratio L = 0.12Drk-0.25Drk, where Drk is the diameter of the impeller.

The dimensions of the beam are determined by the diameter of the impeller and the construction height of the aerodynamic surface of the blade, which, in turn, depends on the technical parameters of the fan installation. The indicated dimensional limits and the ratio of the sizes of the timber allow you to create a technological standard-sized range of impellers with a diameter of up to 7.0 meters, mainly for air-cooling units and cooling towers.

 Two pads 7 and 8 each in the form of a rectangular parallelepiped with a dimensional ratio of its length 1.1b: 0.5b, width 0.5b: 0.6 b and height 0.4b: 0.75b, are connected using two bolts 9 with a puff with a bar placed between them (Fig. 3), and then after assembling the adapter on the opposite side, it is docked using bolts 12 with a blade (Fig. 2).

After assembling the adapter, the lateral faces of the plates form a flat end face of the adapter, with which it is attached to the bonding surface of the hub with two bolts 2 with a tightening with the blade fixed on it (Fig. 1, Fig. 2).

 The possibility of rotation of the adapter relative to the hub is ensured by the fact that a through hole 10 is made in the cover plate 7, and a through groove 11 (Fig. 3) is made in the cover plate 8, the middle line of which is a circular arc with a radius equal to the distance between the centers of the holes for the mounting bolts I, having a dimensional ratio I = 0.5Нз-0.75Нз, and a central angle α, located in the dimensional range of 3-15 degrees, and the bolt in the through hole is the axis of rotation of the adapter.

Due to this structural design of the impeller of the axial fan, the complexity of its manufacture, installation and replacement of the blades during its assembly and repair is reduced.

The impeller of the axial fan (Fig. 1) works as follows: it is installed in a fan installation on the working end of the drive output shaft (not shown in the drawing), and when it is started, it is rotated. When its blades 4 rotate (Fig. 1), an air flow is created in the fan casing (not shown in the drawing), moving axially along the venting parts of the fan unit to its destination.

To switch to a different operating mode of the impeller, it is necessary to change the angle of installation of its blades, for example, from the summer mode to the winter mode in an air-cooled apparatus, it is necessary to reduce the angle of installation of its blades.

The design of the adapter and its mounting on the hub allows the stationary state of the impeller to smoothly adjust the angle of installation of its blades within the limits determined by the central angle α (see figure 4).

To change the angle of installation of the blades, it is necessary to loosen the bolts 2 of the adapter on the hub (Fig. 1), turn the adapter around the bolt located in the hole and which is the center of rotation of the adapter, and therefore the blades, to the required angle and fix it by tightening the bolts 2 with a drag.

Depending on the layout solution of the fan installation, the adapter can be installed in the blade with the location of the through hole in its lower or upper part (Fig. 4). But since the choice of location of the bolt around which the adapter is rotated is a consequence of conventional design, it is not mentioned in the utility model formula.

 The utility model formula also does not mention additional ways to prevent the impeller from operating the possible shifts of the timber relative to the plates after they are assembled in the adapter. The conducted field experiments with adapter samples show that the above-mentioned movements in the plane of rotation are not observed, since in the adapter assembled with a puff, the condition of the joint is not moved by the transverse load Qp acting in the plane of rotation of the impeller and due to the interaction of the blade with the air flow: f Qз ≥ Qр where: f is the coefficient of friction on the contact surfaces, Q3 is the residual bolt tightening. [8]

The results of design and production and technological work indicate that the creation of an impeller of an axial fan according to the proposed technical solution will make it easy to constructively and technologically because of the simplicity that ensures its widespread use in fan building, increase the manufacturability of its manufacture, reduce operating costs and achieve modern level of fan building.

Thus, the use of this impeller of the axial fan will allow to achieve the task, and the claimed solution can be recommended for use in the design of the impellers of axial fans of both general industrial and special purposes, mainly for air cooling units and cooling towers.

LITERATURE

1. GOST 22270-2018. Heating, ventilation and air conditioning systems. Terms and Definitions. paragraph 2.10.21.

2. GOST 22270-2018. Heating, ventilation and air conditioning systems. Terms and Definitions. paragraph 2.78.

3. GOST 22270-2018. Heating, ventilation and air conditioning systems. Terms and Definitions.

4. Vygodsky M.Ya. Handbook of elementary mathematics. M.1975, p. 309.

5. Romanicheva E.T., Sokolova T.Yu., Shandurina G.F. Engineering and computer graphics. M. DMK Press, 2001. p. 434.

6. Vygodsky M.Ya. Handbook of elementary mathematics. M.1975, p. 306.

7. Vygodsky M.Ya. Handbook of elementary mathematics. M.1975, p. 283.

8. Dmitriev V.A. Machine parts. L. 1970, paragraph 25.

Claims (1)

An impeller of an axial fan containing a hub, bolted to it with flat ends and rotatable relative to the hub of the adapter with blades fixed to them, characterized in that the hub is made of a workpiece having the shape of a round cylinder, while its height H3 is in dimensional limits 80-175 mm, and its diameter has a dimensional ratio Dз = 2Нз-3Нз with the number of mating surfaces uniformly distributed over the workpiece, equal to the number of adapters to be connected from 3 to 8, and about formed by sections of the body of a round cylinder by planes extending at a distance in the dimensional range from 5 to 15 mm from its surface at an angle in the dimensional range from 0 to 3 degrees to the generatrix, and each adapter is assembled in one piece from the unified forming elements in the form of a bar of constant cross section made in the cross section in the shape of a rectangle, while its thickness h is in the size range of 5-20 mm, the width has a dimensional ratio of b = 5h - 10h, and its length L has a dimensional ratio of L = 0.12Drk - 0, 25Drk where Drk is the diameter of the impeller, and two pads in the form of a rectangular parallelepiped with a dimensional ratio of length 1.0b - 1.1b, width 0.5b - 0.6b and height 0.4b - 0.75b each, paired with a bar placed between them by means of a bolted connection with a tightening, while the lateral faces of the plates form a flat end face of the adapter adjacent to the bonding surface of the hub, and to which it is fastened with two bolts with a tightening, and the adapter can be fastened and rotated relative to the hub so that under the bolts fasteners arranged coaxially to the longitudinal axis of the beam, a through hole is made in one of the overlays, and a through groove is made in the second overlay, the middle line of which is an arc of a circle with a radius equal to the distance between the centers of the holes for the fastening bolts I, having a dimension ratio I = 0 , 5Нз-0,75Нз, and a central angle α, located in the dimensional range of 3-15 degrees, and the bolt in the through hole is the axis for rotation of the adapter.

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