RU2811872C1 - Duct diagonal centrifugal fan - Google Patents

Abstract

FIELD: fans.

SUBSTANCE: channel diagonal centrifugal fan containing a central body with cylindrical casing (2), inside which a corresponding electric motor (3) with impeller (5) and diffuser (6), and nozzles called cones (11) are installed, and inside cylindrical casing (2), two cones (11) are installed forming removable subassembly (1) together with cylindrical casing (2) and the elements located inside it.

EFFECT: new design.

6 cl, 8 dwg

Description

Technical field

The invention relates to the field of ventilation using an air moving means installed in a support structure and designed to be inserted into a ventilation pipe with a circular cross-section, which is a diagonal centrifugal fan that provides low noise and can be easily disassembled for maintenance or replacement.

Prior Art

Currently, duct diagonal centrifugal fans are widely known, forming a unit that can be inserted into ventilation pipes of circular cross-section.

In the current level of technology development, a variant of these fans is known in the form of a central body consisting of a cylindrical body in which a corresponding drive motor and a rotating impeller in contact with air, made in the form of an impeller with blades, are located. It is also known that inside a cylindrical housing formed in a tubular shell of the engine housing and attached to said tubular shell, there are a number of stationary blades, called guides, which direct air to increase the pressure and productivity of the installation. The design also includes corresponding nozzles, usually called "cones" due to their truncated cone shape, these cones being arranged so that one is located at the inlet on the suction side and the other at the outlet on the discharge side, on one and the other ends of the central cylindrical body.

It is also known that these cones are identical, and therefore the central body can rotate. Moreover, it is part of the state of the art that the central cylindrical body can be disassembled for removal from the housing without the need for any operations on the channels.

Likewise, the current state of the art includes rubber gasket designs in the inlet and outlet cones to improve sealing by preventing air leaks.

Among the currently known implementation options for installations of this type, there is a design in which on the suction side the cone is located inside the cylindrical housing in which the engine is located and covers the fan impeller, while on the discharge side the cone is located outside the cylindrical housing in which the engine is located. the motor, being built into the part of the fan through which it is connected to the corresponding ventilation pipe. Thus, when the cylindrical housing is removed with the motor, one of the cones is removed along with the cylindrical housing, while the other remains connected to the rest of the fixed structure of the installation, to which the ends of the corresponding pipe in which the fan is installed are attached. In other words, only the cone on the suction side is part of the subassembly to be removed.

With this configuration, only one of the cones with the cylindrical body of the central body, which includes the motor and impeller, is removed, while the other cone remains attached by means of a coupling to the ventilation pipe. This makes maintenance or replacement of the fixed cone significantly more difficult, making maintenance difficult in areas with limited space. In addition, since the cones are not mutually symmetrical, the direction of air flow cannot be changed simply by removing and rotating the removable subassembly; instead, it is necessary to disassemble the ventilation pipe couplings.

Another alternative embodiment is also known in which both cones are not located inside the cylindrical body of the central body, although in this case the cones are indeed part of the subassembly being removed.

In this case, during maintenance or replacement operations, the cones are removed along with the cylindrical housing that surrounds the engine, which facilitates maintenance or replacement of the cones.

Moreover, these cones are connected to the cylindrical body from the outside. This makes maintenance of the components inside the housing more difficult. In addition, the dimensions of the unit increase. Therefore, the use of this embodiment is not possible in places where space is limited.

In view of the described shortcomings of currently existing solutions, a solution is needed that provides a more compact installation, while at the same time facilitating maintenance and/or repair of the fan components. These objects are addressed by the invention, which provides an embodiment that provides quieter operation and greater protection of the most sensitive parts or elements, as will be shown below.

Disclosure of the Invention

To achieve the above object of the invention and solve the above technical problems, in addition to the advantages that can be obtained later, according to the invention, an embodiment of a fan is disclosed in which the cones are located inside the cylindrical body of the central body that surrounds the engine, are located inside the said cylindrical body and are also part of the subassembly being removed. Thus, this removable sub-assembly is formed by a cylindrical body and two cones, in addition to the remaining components of the central body, such as the electric motor, impeller and fairing.

With this configuration, maintenance operations are made easier since there is no need to loosen the couplings connecting the ventilation pipes of the unit. All you need to do is remove the sub-assembly that is being removed, which houses virtually all the components that may require maintenance or replacement.

In fact, thanks to this solution, maintenance operations on the fan or replacement of its components are simplified, since the removed subassembly includes almost all parts and elements that may require repair and/or replacement.

An additional benefit obtained by tightly packing the cones within the removable cylindrical housing is that the dimensions of the diagonal centrifugal fan are smaller for silent fans. Fans of the type disclosed in accordance with the invention have a rubber-metal bushing for the motor and a fairing to reduce noise levels. However, in existing embodiments of fans of this type, the rubber-metal bushing and fairing are removed along with the removed cylindrical body, but remain outside it, which increases the longitudinal size of the fan assembly.

Moreover, this dual condition of having the cones inside the cylindrical body of the central body and of them forming part of a removable subassembly is achieved by maintaining the concept that the two cones are identical to each other and the diagonal centrifugal fan provides the condition of symmetry. Thus, the central body of the fan, formed by the removable subassembly, is reversible and can be assembled on an appropriate support and anchor post in both one and the other direction.

This configuration, in which the cones form part of a removable subassembly, makes it easier to maintain the cones, which can accumulate dirt or develop cracks causing fan failure, thereby avoiding complete replacement of vent pipe connections.

In addition, since the cones are located inside the cylindrical body of the central body, they provide protection to the internal components of the fan and reduce noise levels during operation.

According to another aspect of the invention, the cones contain peripheral annular ribs forming an ideal cylinder, the outer diameter of which corresponds to the inner diameter of the removable cylindrical body. Thus, they ideally adhere to the inner surface of the removed cylindrical body, thereby reducing noise levels and increasing internal tightness. In addition, these cones include an overmolded gasket at their outer end, which provides an additional internal seal at their connection with the couplings, the overmolded gasket and the body of each cone, which form a single unit.

Optionally, the removable cylindrical housing may comprise a tubular shell surrounding the electric motor, on the outer surface of which there are stationary blades oriented in a direction opposite to the direction in which the impeller blades are oriented, and separated from said impeller, which act as guides.

This configuration, along with the fairing surrounding the electric motor, helps make the fan assembly quieter.

In particular, there is a sealing gasket on the outer cylindrical surface of the couplings that provide connection with the ventilation pipes. This sealing gasket surrounding the coupling helps ensure an OD seal when pipe is installed on the coupling.

Thus, according to the invention, a tubular fan assembly with high external and internal tightness is disclosed, due to the design of which the tasks of maintenance and replacement are greatly facilitated while maintaining the identity of the design of both cones and the reversibility of the central body, and, in addition, all this is achieved by means of the variant implementation that reduces the noise level generated by the fan during operation.

Finally, the electric motor has a rubber-metal bushing attached to it, located inside the tubular shell of the cylindrical body and attached to the fairing. This reduces the noise level, providing a more compact and sealed unit, which results in a quiet and reversible diagonal centrifugal fan. Brief description of the drawings

In fig. Figure 1 shows a diagram of one of the currently known implementation options for diagonal centrifugal fans, according to which the cone (11) at the air inlet is located inside the cylindrical housing (2) of the central body of the fan, while the other cone (11) is located outside the cylindrical housing (2). Thus, when the cylindrical housing (2) is removed with the motor, the air outlet cone (11) remains connected to the rest of the fixed structure of the installation, to which is attached the end of the corresponding pipe in which the fan is installed. The removable cylindrical body (2) is shown in dotted lines, and the cones (11) are shown in thick lines; one of the cones is attached to the coupling (10).

In fig. 2 shows a diagram of another currently known embodiment, in which both cones (11) are not located inside the cylindrical housing (2) of the central body of the fan, although in this case the cones (11) are indeed part of the removable subassembly. The dotted line shows the cylindrical body (2), which is removed along with the cones (11), shown in thick lines, which remain attached to the cylindrical body (2) from the outside.

In fig. 3 shows a diagram of a solution according to the invention. The subassembly to be removed (1) is shown as a dotted line, and the cones it contains (11) are shown as thick lines.

In fig. Figure 4 disassembled schematically shows the assembly of a diagonal centrifugal fan according to the invention, perspective view.

In fig. Figure 5 schematically shows the assembled diagonal centrifugal fan assembly with the tie clamps (8) open before fixing, perspective view.

In fig. 6 schematically shows the removable subassembly (1) of the diagonal centrifugal fan, removed from its supporting structure, perspective view.

In fig. Figure 7 shows the assembly of a diagonal centrifugal fan, a longitudinal section view.

In fig. Figure 8 schematically shows the connection between the diagonal centrifugal fan assembly and the support column (9), sectional view.

Embodiments of the Invention

The subject of the invention is a diagonal centrifugal fan assembly intended for installation in ventilation pipes, comprising: a central body formed by a cylindrical housing (2), which in this exemplary embodiment contains an electric motor (3) with a rubber-metal bushing (4); impeller (5) with blades facing outwards; fairing (6) surrounding the electric motor (3); and a support post (9) for installing and supporting the diagonal centrifugal fan assembly (1). This support post (9), as is known in fans of this type, consists of two identical parts located opposite each other, each of which forms a post (7), allowing the installation to be installed both vertically and horizontally, as well as couplings (10 ), connecting ventilation pipes that are not shown. The connection of the cylindrical body (2) with the couplings (10) is carried out using tie clamps (8), hingedly attached at one end.

Diagonal centrifugal fans of this type contain two nozzles (11), usually called "cones" due to their truncated cone shape. These two cones (11) are usually identical to each other and are located symmetrically with respect to the cylindrical body (2), one at the inlet, which completely surrounds the impeller (5), and the other at the outlet, surrounding the fairing (6). These cones (11) are designed to reduce the cross-sectional area of the cylindrical body (2) for its connection with the ventilation pipes using appropriate couplings (10).

According to an embodiment already available in the state of the art and schematically represented in FIG. 1, located at the air inlet, a cone (11) is installed inside the cylindrical housing (2) of the central body of the fan, while the other cone (11) is located outside the cylindrical housing (2). Thus, when the cylindrical housing (2) is removed with the motor, the air outlet cone (11) remains connected to the rest of the fixed structure of the installation, to which is attached the end of the corresponding pipe in which the fan is installed.

Another alternative implementation of fans of this type is also known, schematically shown in Fig. 2, according to which the cones (11) are not located inside the cylindrical housing (2) of the central body of the fan, although in this case the cones (11) are indeed part of the subassembly being removed.

In fig. 3 schematically shows an object of the invention, in which the central body of the fan is also formed by a cylindrical body (2), but the cones (11) are inside the cylindrical body (2), located inside this cylindrical body (2), forming part of the removable subassembly (1), shown in fig. 6. Thus, this removable subassembly (1) is formed by a cylindrical body (2), a motor (3) and two cones (11), as well as, logically, the remaining elements of this central body, such as the impeller (5), the rubber-metal motor bushing and fairing (6).

With this configuration, maintenance operations are made easier since there is no need to loosen the couplings (10) connecting the ventilation pipes of the unit. It is only necessary to remove the removable sub-assembly (1), which contains almost all components that may require maintenance or replacement.

In fact, thanks to this solution, maintenance operations on the fan or replacement of its components are simplified, since the removed subassembly (1) includes almost all parts and elements that may require repair and/or replacement.

An additional advantage obtained by tightly placing the cones (11) inside the cylindrical housing (2) is that the dimensions of the fan assembly are smaller, unlike other solutions in which the cones (11) are removed along with the cylindrical housing (2), but remain outside the housing, as is the case with the embodiment shown in FIG. 2.

Moreover, the fulfillment of this dual condition of placing the cones (11) inside the cylindrical body (2) of the central body and that they form part of a removable subassembly (1) is achieved by maintaining the concept that the two cones (11) are identical to each other, and the diagonal centrifugal fan ensures the condition of symmetry. Thus, the central body of the fan is reversible and can be assembled on the corresponding support post (9) in both one and the other direction, in contrast to solutions similar to those presented in Fig. 1.

As can be seen from Fig. 4, the cones (11) are symmetrical and separated from the cylindrical body (2), and they have peripheral annular ribs (12), forming an ideal cylinder, the outer diameter of which corresponds to the inner diameter of the cylindrical body (2), which ensures a better fit of the outer surface of the cones (11) to the inner surface of the cylindrical body (2), helping to provide a seal between them in this area and reduce noise levels. According to a practical embodiment, some or all of these peripheral annular ribs (12) may have a spacer (13) molded on top of an elastic synthetic material to provide a tight fit between the outer surface of the cones (11) and the inner surface of the cylindrical body (12). .

To assemble the fan, you must first install the support stand (9), connecting the ventilation pipes to it using couplings (10). To ensure a tight connection between the outer surface of the couplings and the diagonal centrifugal fan, each coupling (10) has a sealing gasket (17), as shown in Fig. 7.

Further, the connection is ensured using hinged clamps (8). As shown in FIG. 5, each tie clamp (8) at its hinged end has a relief element in the form of a small transverse finger (8.1), formed by the tie clamp (8) itself. This pin (8.1) contains corresponding locking extensions at its ends. This finger, by means of an elastic clamp, fits inside the counter support (9.1) made on the support post (9), which allows the tie clamps (8) to rotate.

At the end opposite the hinged end, each tie strap (8) includes a protruding tongue (8.3) that is inserted into the socket of each support (9.1). This insertion is carried out on the side of the support post (9), opposite the side on which the hinge of the tie clamp (8) is located. Each tongue (8.3) has a protrusion (8.2) that elastically snaps into the corresponding support socket (9.1), which makes it possible to pre-fix the tie clamps (8). Final fixation is carried out by screwing in a screw installed on the relief element (8.4) of the tie clamp itself (8), as shown in Fig. 5. This screw (not shown) contains a washer made of elastic material to prevent it from accidentally falling out of its seat in the relief element (8.4); a similar solution is used for the screws securing the junction box (16) to the cylindrical body (2).

Once the support post (9) is secured, the removal subassembly (1) is assembled with all its components, such as the cylindrical body (2), the motor (3) with rubber bushing (4) and impeller (5), and the fairing ( 6), located at the outlet.

To improve efficiency and reduce noise, the cylindrical housing (2) contains a tubular shell (14) that surrounds the motor (3) and contains fixed blades (15) on its outer surface. These fixed blades (15) are oblong in shape, their longitudinal dimension is slightly less than the length of the tubular shell (14), they are separated by a short distance from the impeller (5) and act as a guide for the air flow. Thus, together with the fairing (6), the fixed blades (15) provide direction of the air flow to increase the pressure and productivity of the installation with a low noise level.

Once the removal subassembly (1) has been assembled, the appropriate electrical connection is made using a junction box (16), which can be rotated 360° to ensure the wires are routed in the most convenient direction. This junction box (16) has a low profile and is secured with a single screw equipped with a washer made of elastic material, which prevents the screw from accidentally falling out, i.e. the possibility of its accidental loss.

The fully assembled assembly is shown in sectional view in FIG. 7. As can be seen from Fig. 7, the cones (11) are located inside the cylindrical housing (2), and their symmetry ensures the reversibility of the fan.

At the same time, the diagonal centrifugal fan assembly produces a more compact unit that can be installed in areas where available space is limited. In addition, the invention provides a low noise fan due to various noise reducing components within the removable sub-assembly (1), such as a rubber bushing (4) attached to the motor (3), a fairing (6) and fixed blades (15). , which are all surrounded by cones (11), and their sealing is ensured by a gasket molded on top (13). This ensures that the noise level is minimized without compromising the efficiency of the device.

And finally, as shown in FIG. 8, to ensure internal sealing and reduce the noise level that occurs at the junction of the removed subassembly (1) with the stationary fan structure, each cone (11) contains a gasket (13) molded on top installed at its outer end, made of a synthetic material of a certain elasticity, abutting against a rotating projection extending along the entire periphery of the rear inlet portion of each coupling (10). Thus, when closing the clamps (8), the internal tightness of the removed subassembly (1) is ensured and noise is prevented, thereby ensuring a more compact fan with a low noise level.

Making the gasket (13) from an overmolded material on each cone (11) means that said gasket (13) and cone (11) are a single piece, making them easier to transport and assemble.

If it is subsequently necessary to carry out maintenance operations on internal components or change the direction of operation of the fan, the rotary tie clamps (8) are simply opened to remove the removable sub-assembly (1), shown in FIG. 6. Once this removable sub-assembly (1) has been removed, the cones (11) can be disassembled and the necessary maintenance and/or repair operations can be carried out.

Claims (6)

1. A channel diagonal centrifugal fan containing a central body with a cylindrical body (2), inside of which a corresponding electric motor (3) with an impeller (5) and a fairing (6), and a nozzle called a cone (11) are installed, characterized in that contains a second cone (11) installed inside a cylindrical body (2), and these two cones (11) together with the cylindrical body (2) and the elements located inside it form a removable subassembly (1). 2. A duct diagonal centrifugal fan according to claim 1, characterized in that each cone (11) at its outward-facing end of a smaller diameter contains a solid gasket molded on top (13) with a common body of the cone (11), and said gasket molded on top ( 13) is installed between the cone (11) and the corresponding fan coupling (10), connecting it to the ventilation pipes. 3. Channel diagonal centrifugal fan according to claim 1 or 2, characterized in that the cones (11) contain peripheral annular ribs (12) forming a cylinder, the outer diameter of which corresponds to the inner diameter of the cylindrical body (2). 4. Duct diagonal centrifugal fan according to any one of paragraphs. 1-3, characterized in that the cylindrical body (2) contains a tubular shell (14) surrounding the electric motor (3), which contains fixed blades (15) located on its outer surface and oriented in the direction opposite to the direction of the impeller blades (5 ), and separated from said impeller (5), which serve as guides. 5. Channel diagonal centrifugal fan according to any one of paragraphs. 1-4, characterized in that the couplings (10) contain sealing gaskets (17) located on their outer cylindrical surfaces. 6. Channel diagonal centrifugal fan according to any one of paragraphs. 1-5, characterized in that the electric motor (3) contains a rubber-metal bushing (4) attached to it, located inside the tubular shell (14) of the cylindrical body (2) and attached to the fairing (6).

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