RU210663U1 - Fan - Google Patents

Abstract

The utility model relates to centrifugal (radial) fans, including those operating in aggressive environments, for example, in chemical shops and laboratories, on electroplating lines, at non-ferrous metallurgy enterprises for completing gas cleaning systems and transporting air, aerosols and gases in various chemical and technological processes . The fan comprises a housing made in the form of a snail with inlet and outlet nozzles, an electric motor with a shaft on which an impeller is mounted, located inside the housing, the electric motor is fixed on a support. In the plane of the back panel of the support, perpendicular to the axis of the shaft, the disk is rigidly fixed, the disk is provided with a hole for the shaft and mounting holes, while on the back wall of the housing there is a hole for the impeller, the inner diameter of which is greater than the outer diameter of the impeller. The rear wall of the housing is equipped with fasteners for detachable fastening to the mounting holes of the disk. EFFECT: maintainability of the impeller without removing it from the motor shaft. 5 z.p. f-ly, 3 ill.

Description

The utility model relates to centrifugal (radial) fans, including those operating in aggressive environments, for example, in chemical shops and laboratories, on electroplating lines, at non-ferrous metallurgy enterprises for completing gas cleaning systems and transporting air, aerosols and gases in various chemical and technological processes .

There are many centrifugal fans on the market, and traditionally in most cases they are made of steel. Such fans are subject to rapid corrosion and, as a result, cannot be used in aggressive chemical environments. Therefore, the technical problem is to increase the service life of fans when operating in aggressive environments.

Currently, centrifugal (radial) fans are widely known that can withstand prolonged exposure to chemical aggressive environments. The most effective solution to the chemical resistance of centrifugal fans has come to us with the extensive use of thermoplastics and composite materials in the industry, as As you know, thermoplastics and composite materials are characterized by good chemical resistance, and the manufacture of centrifugal fan parts from these materials is the best suited for these purposes.

Known fan operating in explosive and corrosive environments, consisting of a plastic casing type snail, impeller and drive from an electric motor, the impeller is made of conductive fiberglass, and the casing is made of two-layer plastic mass with an outer layer of fiberglass and an inner layer of conductive low-melting thermoplastic, working the wheel and the inner layer of the body have a ground outlet (SU No. 211009, 1968).

A fan is known, consisting of a fan housing (snails), an electric motor mounted on a frame, an impeller mounted on the motor shaft, a pipe for draining condensate, and the fan housing is made of sheet thermoplastics, and the fan impeller is made of fiberglass, consisting of a binder and filler (RU 201690, 2020).

Closest to the proposed one is a fan consisting of a fan housing (snails), an electric motor mounted on a frame, an impeller mounted on the motor shaft, a pipe for draining condensate, and the fan housing and the impeller are made of sheet thermoplastics with a thickness of 3 to 20 mm (RU 201830, 2020).

The main disadvantage of the above fans is limited maintainability. During prolonged operation in aggressive environments, particles contained in the gas-air mixture moved by the fan adhere to the fan impeller and, as a result, imbalance (vibration) appears on the fan impeller, which can lead to impeller destruction. To clean the impeller properly, it is necessary to dismantle the fan housing (spool). The design of the fan frame, known from patents RU 201690, RU 201830, does not provide for the dismantling of the fan casing (coil) without removing the impeller, because the fan housing (coils) is attached directly to the fan frame with its rear wall. Removing the impeller from the motor shaft is a laborious process that requires a set of special tools and qualified personnel, and after removing the impeller, it is necessary to re-balance the impeller, which is also impossible to do without special equipment and qualified personnel in this field.

The technical objective of the claimed utility model is to improve the maintainability of centrifugal fans.

EFFECT: ensuring maintainability of the impeller without removing it from the motor shaft.

To solve the stated technical problem, a fan is claimed, containing a housing made in the form of a snail with inlet and outlet pipes, an electric motor with a shaft on which an impeller is installed, located inside the housing, an electric motor mounted on a support, characterized in that in the plane of the back panel of the support the disc is rigidly fixed perpendicular to the shaft axis, the disc is provided with a hole for the shaft and mounting holes, while on the rear wall of the housing there is a hole for the impeller, the inner diameter of which is greater than the outer diameter of the impeller, and the rear wall of the housing is equipped with fasteners for detachable fastening to disc mounting holes.

The support is made in the form of a pedestal and preferably has a trapezoidal shape, and the lid of the pedestal forms a lodgment for mounting the electric motor. On the sides, the lodgement is provided with sidewalls, the rear faces of which are integrally connected to the surface of the disc, which has a central hole for the shaft. The connection of the sidewalls to the disc surface is provided, for example, by means of welded seams. With such a connection, the sidewalls perform the function of stiffening ribs, and also provide a strong permanent connection of the disk in the plane of the back panel of the support, ensuring the immobility of the disk relative to the support. With its lower surface, a part of the disk is rigidly fixed to the rear panel of the pedestal, for example, by means of a welded seam. The hole for the shaft, made in the disk, has a diameter that provides the possibility of non-contact rotational movement of the motor shaft with the impeller mounted on it with a hub. A technological window is made on the front panel of the pedestal, providing access to the elements of fastening the electric motor to the lodgment. The pedestal can be placed on the base and provided with a stand for the fan housing, made in the form of a frame, the rear wall of which has a profile corresponding to the bend of the fan housing (coil). All parts placed on the base are connected to each other and to the base by means of a welded joint. Any known plastic or composite materials containing a polymeric binder can be used for the manufacture of a pedestal, for example, a fiberglass-reinforced composite-fiberglass sheet.

The disc, which has a hole for the shaft, is also provided with mounting holes made in close proximity to the edges of the disc along its perimeter, preferably with a step of 100 mm. The rear wall of the fan housing has a round hole for the impeller, the inner diameter of which exceeds the outer diameter of the impeller, and fasteners are placed around the perimeter of this hole, preferably with a step of 100 mm, made in the form of steel studs, bolts or similar threaded connections. Mounting holes on the disk are made symmetrically to the fasteners on the rear wall of the housing, providing the possibility of their alignment and detachable connection. By means of studs and nuts with washers or bolts and nuts, the rear wall of the fan housing (coil) is fastened by means of a threaded connection to the mounting holes of the disk, which is permanently connected to the lodgment of the motor support.

The fan housing contains the necessary structural elements to ensure proper operation, in particular, inlet and outlet pipes with the possibility of attaching a flexible element, a hole or pipe for draining condensate, and grounding elements.

A feature of the claimed design of the fan is the presence of a disk with a hole for the shaft, placed perpendicular to the motor shaft and permanently attached in the plane of the back panel of the support, made in the form of a pedestal, the fastening of the fan casing to the disk is detachable (collapsible), which is ensured by the presence of fasteners on the disk around its perimeter. holes and mating fasteners on the rear wall of the housing. This ensures the maintainability of the impeller without removing it from the motor shaft, as well as reliable fastening of the fan housing to the support. In addition, in the process of repairing the fan, it may be necessary to change or add any elements of the ventilation system, for which it may be necessary to change the position of the fan housing. The claimed design provides the possibility of rotation of the fan housing (coil) around its axis, and without dismantling the impeller.

Placing a disk with a hole for the shaft perpendicular to the shaft axis and in front of the impeller, making a hole on the back wall of the housing with an inner diameter greater than the outer diameter of the impeller, provides the possibility of free removal of the fan housing without dismantling the impeller by simply manipulating the threaded connections of the back wall of the housing and disk. This allows you to perform the dismantling and subsequent installation of the fan housing without the involvement of qualified personnel, without the use of special tools in a short period of time, reducing the cost of dismantling and mounting the fan housing, ensuring the maintainability of the impeller without removing it from the shaft. Thus, the claimed design makes it possible to simplify the maintenance of the fan during its operation.

The claimed utility model is illustrated by the following drawings.

Figure 1 shows the inventive fan assembly.

In FIG. 2 schematically shows a fan assembly on a support with a disk with a removable rear wall of the fan housing (coil) (top, side, front views).

In FIG. 3 shows a disk with a hole for the motor shaft.

The claimed design of the fan in the presented drawings is characterized by the presence of a support (1) made in the form of a pedestal made of sheet plastic, with a disk (2) made of sheet plastic and rigidly connected in the plane of the back panel of the support (1) perpendicular to the axis of the shaft. The support (1) has a lodgement (3) for mounting the electric motor (4) with the shaft (5) and the impeller (6) made of sheet fiberglass with a hub (not shown). Support (1) has sidewalls (7) made of sheet plastic and rigidly connected to support (1) and disk (2) by means of welds. The support (1) is fixed on the base (8) together with the stand (9) under the casing (10) of the snail-shaped fan made of plastic. The stand (9) for the fan housing (10) is made of plastic, such as sheet thermoplastic, and is rigidly connected to the support (1) and the base (8) by means of welds. A technological window (11) is made on the front panel of the support (1) to provide the possibility of servicing the fastening of the electric motor (4) to the lodgment (3). The disc (2) has a hole (12) for the shaft (5), which provides the possibility of free movement of the shaft (5) with the impeller (6), and along the perimeter of the disc (2) in close proximity to the edges, there are mounting holes (13) for threaded connections with fasteners (14) located on the rear wall of the fan housing (10) and made along the perimeter of the hole (15). In this case, the outer diameter of the impeller (6) is less than the inner diameter of the hole (15) made on the rear wall of the housing (10) to ensure free dismantling and mounting of the housing (10) to the disk (2) without removing the impeller (6) from the shaft (5) electric motor (4). The threaded connection of the body (10) to the disc (2) can be made by any known means, for example, by means of studs and nuts with washers or bolts and nuts or other known fasteners. Heads of bolts and nuts with washers can be additionally equipped with removable plastic caps to protect the fasteners from the corrosive effects of an aggressive environment. The housing (10) is equipped with an outlet pipe (16), a drain hole (not shown), grounding (not shown), a flexible insert (17), the impeller (6) is made with a hub (not shown).

The inventive fan is made as follows.

The manufacture of the support (1) in the form of a pedestal is carried out as follows. Cabinet elements are made of plastic, in particular sheet thermoplastics - two side panels, front and rear panels and the top wall, which acts as a lodgment (3) for mounting the electric motor (4). A technological window (11) is cut out on the front panel in the form of an opening for access to the mounting bolts of the electric motor (4) mounted on the cradle (3). All elements of the support (1) are welded together by heating. Next, a base (8) is cut out of thermoplastics on a panel-cutting machine, to which the assembled support (1) is welded by plastic welding, as well as a stand (9), the elements of which are cut out of sheet thermoplastic and welded together. After that, sidewalls (7) are welded to the support (1), and then a disk (2) with a hole (12) for the shaft and mounting holes (13) is welded to the sidewalls (7) and the support (1). The disk (2) is made by cutting along a given trajectory on a machine with numerical control (CNC) from plastic, which is taken as sheet thermoplastics. Sheet thermoplastics are used as plastic for the manufacture of elements of the support (1), base (8), stand (9) and disk (2).

An electric motor is attached to the lodgement (3) of the support (1) by means of a bolted connection, the impeller hub (6) is mounted on the shaft (5) of the electric motor (4) through the hole (12) in the disk (2). To avoid contact of the impeller hub (6) with the disk (2) when the impeller (6) rotates, the hole (12) of the disk (2) has a larger diameter than the outer diameter of the seat of the impeller hub (6). When manufacturing the fan housing (10) from plastic, a hole (15) is cut out on the rear wall for the impeller (6), the inner diameter of which is larger than the outer diameter of the impeller (6). Then, by means of a threaded connection, the rear wall of the fan housing (10) is fixed to the disk (2) by aligning the fasteners (14) with the mounting holes (13). Mounting holes (13) in the disk (2) are placed with a step of 100 mm, which ensures that when the body (10) is rotated around its axis in one direction or another, the angle of the body (10) with respect to the horizon changes. Lastly, the flexible inserts (17) are attached to the flanges of the outlet and inlet pipes of the fan by means of a bolted connection.

The claimed design makes it possible to ensure the maintainability of the impeller without removing it from the motor shaft, as well as the operational reliability of the fan.

Claims (6)

1. A fan containing a housing made in the form of a snail with inlet and outlet pipes, an electric motor with a shaft on which an impeller is installed, located inside the housing, the electric motor is fixed on a support, characterized in that in the plane of the back panel of the support perpendicular to the axis of the shaft is rigidly fixed disk, the disk is provided with a hole for the shaft and mounting holes, while on the rear wall of the housing there is a hole for the impeller, the inner diameter of which is larger than the outer diameter of the impeller, and the rear wall of the housing is provided with fasteners for detachable fastening to the mounting holes of the disk. 2. The fan according to claim 1, characterized in that the rear wall of the case is detachably attached to the disk by means of a threaded connection. 3. The fan according to claim 2, characterized in that the threaded connection is represented by studs or bolts and nuts with washers. 4. The fan according to claim 1, characterized in that the mounting holes on the disk and the fasteners in response to them on the rear wall of the case are made with a pitch of 100 mm. 5. The fan according to claim 1, characterized in that the support with the disk is rigidly connected to each other by means of welds. 6. The fan according to claim 1, characterized in that the support is a pedestal with a lodgment for mounting the electric motor, the disk is fixed in the plane of the back panel of the pedestal perpendicular to the axis of the shaft, and on the front panel of the pedestal there is a technological window for access to the fastening elements of the electric motor.

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