RU2459121C2 - Collector of spiral type, in particular for fans used in exhaust air channels - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: collector (1) of a spiral type for a fan comprises a jacket that forms a body for a fan impeller (2), besides, the jacket comprises a nozzle (6), which creates a fan suction hole (3), connection facilities of engaging type arranged on the suction nozzle (6) and so that they interact with appropriate counter-facilities of connection, which are arranged on a channel (8), designed for suction of air-like gases sucked-in by the fan, axial retention facilities between connection facilities of engaging type and counter-facilities of connection, to retain the collector (1) in respect to the channel (8) at least in axial direction of mutual connection, where axial retaining facilities comprise at least one retention element (10), which is provided in the suction hole (3) of the collector (1), besides, at least one retention element (10) is arranged as capable of elastic deformation between the first position, in which the collector (1) is free for engaging connection in respect to the appropriate structure of the channel (8), and the second position, in which the element (10) rests against the channel structure, preventing disengagement of the collector (1) and the channel structure at least in axial direction, which is opposite to the mutual engagement direction.

EFFECT: possibility to quickly connect a collector with an appropriate exhaust air channel frame when assembling a collector.

12 cl, 7 dwg

Description

The present invention relates to a collector, in particular a spiral-type collector, which is designed to accommodate a fan impeller housing, especially for exhaust ventilation ducts having a set of features in the preamble of the main claim.

The invention is used, in particular, although not exclusively, in the manufacture of ventilation units for ducts for exhaust ventilation of air-like gases from domestic premises.

A known design of the spiral collector casing, consisting of two separate halves of the casing, which can be connected to each other so as to form a spiral of the collector, inside which the fan impeller is rotatably supported and controlled by a corresponding engine.

The collector is additionally generally mounted on the frame of the exhaust ventilation duct so that the duct suction duct is connected to the manifold suction port. Typically, such a suction port is in the form of a substantially cylindrical nozzle, which can be inserted, preferably in an airtight manner, into the suction pipe of the exhaust ventilation duct. The collector is usually fixedly mounted on the frame of the exhaust ventilation duct using means such as screws or other similar installation tools of a replaceable type in order to facilitate the assembly / disassembly of ventilation units at the installation sites and subsequent maintenance.

Such applications usually include the limited availability of parts that must be fixed, primarily due to the small amount of space provided inside the exhaust ventilation duct in the collector assembly area, which makes assembly / disassembly of the ventilation unit difficult and time-consuming and, in particular, those necessary for mounting / dismounting the collector on / from the exhaust duct frame.

The main objective of the invention is to eliminate the aforementioned disadvantages by means of a manifold which is designed in such a way as to allow the operator to easily and quickly connect the collector to the corresponding frame of the exhaust ventilation duct, with the most complete simplification of the operations of assembling the collector on the exhaust ventilation duct.

This goal and other objectives, which will be disclosed below, are achieved by the collector, in particular the spiral type collector, which is made in accordance with the attached claims.

Further, the features and advantages of the invention will be apparent from the following detailed description of one preferred embodiment of the invention, which is illustrated simply by way of an unlimited example, with reference to the accompanying drawings, in which:

Figure 1 is a General view of the spiral type collector, which is made in accordance with the present invention,

Figure 2 is a General view of the details of the collector of the previous drawing, made on an enlarged scale;

Figure 3 is a vertical side view of the part of Figure 2,

Figure 4 is a view in partial section of another part of the collector of Figure 1,

5, 6 and 7 are partial schematic views of the details of the collector of the invention in the respective various operating positions that are achieved in the step of connecting to the exhaust ventilation duct, which is illustrated only schematically.

With reference to the aforementioned drawings, the spiral type collector, which is generally indicated by 1, is created in accordance with the invention and is configured to form a casing for the impeller 2 of the radial fan, which is shown only schematically and which can be rotated by the motor 2a along the axis X rotation.

In the manifold 1, a suction hole 3 is made in which the direction of the suction stream is represented in the drawing by the direction of the Y axis, essentially it is directed perpendicular to the axis of rotation.

The spiral of the collector 1 is formed by a housing, which is made as two halves of the housing, which are indicated by 4 and 5, respectively, and which can be connected to each other in the connection plane. Preferably, the halves of the housing 4, 5 were substantially symmetrically symmetrical about the connection plane, the plane thus forming the median plane of basic symmetry.

Each half of the housing 4, 5 comprises a corresponding part 4a, 5a of the suction nozzle 6, the parts 4a, 5a together forming a suction hole 3. The nozzle portions are further preferably configured to have a semi-cylindrical profile so as to form a suction nozzle having a circular cross section. Alternatively, there is the possibility that the nozzle was made in one piece with one of the halves of the body (at half 4 in the described example). The nozzle is adapted to be coupled by engagement with the structure of the exhaust duct box 8, which is only partially illustrated in the accompanying drawings. In the duct connection zone, it is equipped with a suction pipe (equipped with a fluid connection with a fan suction port), through which the incoming air flow sucked in by the ventilation device is transferred in the direction of the duct outlet. The hole in the box 8 is indicated by 9 and made in part 9a of the frame of the box, and this hole is made with the possibility of engagement using an axial engaging connection with the nozzle 6 of the manifold.

To connect the collector to the duct structure, there are axial holding means which include a plurality of holding elements, which are all indicated by 10 and which are formed on the nozzle 6 of the suction hole 3. More precisely, each holding element 10 comprises a corresponding protrusion 11, which is capable of elastic deformation between the first position in which the collector is not fixed to be connected by axial engagement with the opening 9 of the box and the second position in which each protrusion moves against duct 8, preventing the collector from disengaging with the hole 9 in the opposite axial direction to this mutual engagement, thereby providing unidirectional retention, as will be clear from the description Nia below.

The protrusions 11 have structural and functional identity with each other, and therefore only one of them will be described in detail below. The protrusion is preferably formed in one part with the collector and is made on the cylindrical wall of the nozzle 6. In the protrusion 11 there is one end 11a for abutment to the nozzle and an opposite free end 11b that is provided to form supporting surfaces for the duct. The protrusion 11 is elastically deformable primarily in the radial direction (transverse to the air supply direction Y). Preferably, the protrusion has, when viewed from above, a quadrangle configuration in which the attached end 11a extends on one side, the protrusion being located at a distance from the collector wall on the other sides. The protrusion may, for example, advantageously be made by cutting the nozzle wall 6 along the three aforementioned sides and forming an undeformable part protruding from the nozzle wall. In such an embodiment, the attachable end 11a is directed away from a portion of the free edge of the suction nozzle 6.

At the opposite end 11b, the protrusion has a supporting surface 12 that can come into contact with part of the duct frame 9a, and this surface 12 has a curved profile in cross section, as shown in FIG. Alternatively, the surface profile 12 may be linear.

In a preferred embodiment, the connection system provides a plurality of protrusions 11 that are spaced uniformly along the cylindrical wall of the suction nozzle 6, as shown in FIG.

The annular flange, which is indicated by 15, radially protrudes from the nozzle 6 of the manifold and is positioned to be axially spaced from the protrusions 11, in such a position as to come into contact with the free ends 11b of the protrusions. On the flange 15, a ledge surface 15a is formed on the side of the protrusions 11, whose function is to interact with the protrusions to come into contact with the duct frame 9a in the mutual axial holding position to cause a bi-directional holding effect of the collector relative to the duct along the axial axis Y of the joint.

The connection system ensures that, starting from the position of FIG. 5, with the help of the parts, when the parts are disengaged and axially offset from each other, the manifold nozzle 6 is inserted axially (Y direction) into the opening 9 of the box. Such an axial engaging movement forms a radial bending (in the direction of arrow A of FIG. 6) of the protrusions 11 (by means of the obstructing action of the opening 9 of the frame 9a), which causes the duct frame to pass through the nozzle area having the protrusions. As soon as the aforementioned obstructive action is completed, the protrusions 11, due to the elastic return action caused by deformation, again move to the undeformed position in which the frame of the box holds the axial position (in two directions), because one side abuts against the protrusions (supporting surfaces 12) and the other the side abuts against the surface of the ledge 15a (Fig.7). It should be noted that the protrusions 11 by means of an elastic return automatically triggered during the relative axial engaging movement form a detachable snap connection.

Thus, in a mutually axial stored state, relative angular rotation is provided between the connected parts (collector / box) in the Y direction, which can, for example, be used for small adjustment or for precise control of the relative position between the connected parts.

To separate the collector and the box, it is necessary to simultaneously act on the protrusions by radial compression (in the direction of arrow A), for example, using a suitable tool so as to allow axial movement to disengage the box frame (in the direction from step 15) relative to the collector in the opposite direction relative to the direction of engagement . Thus, disengagement is only possible through the intentional action of the operator, thus preventing any possible undesired accidental disconnections from occurring.

Thus, the invention achieves its objectives and provides many advantages over known solutions.

The main advantage is that the collector according to the invention is capable of extremely quickly being coupled by a gearing method with a box by means of movements that are simple and easy for the operator without the use of special equipment or attachment means independent of the connected parts, thereby providing an efficient and reliable axial holding action of the collector relative to the box.

Claims (12)

1. A manifold (1) of a spiral type for a fan, comprising a casing forming a housing for the impeller (2) of the fan, the casing comprising a nozzle (6) that forms a collector suction hole (3), hook-type connection means made on the nozzle ( 6) suction and arranged so as to interact with the corresponding means of counter connections made on the box (8), which is designed to suck out the air gases absorbed by the fan, axial holding means between the means of an engaging type and means of connection to hold the collector (1) relative to the duct (8), at least in the direction of mutual axial connection, characterized in that the axial holding means contain at least one holding element (10), which installed in the suction hole (3) of the collector (1), and at least one holding element (10) is made with the possibility of elastic deformation between the first position in which the collector (1) is free for engagement by a mesh the box structure (8), and the second position in which the element (10) abuts the box structure, preventing the collector (1) and the box structure from disengaging at least in the axial direction opposite to the direction of mutual engagement. 2. The collector according to claim 1, characterized in that it contains at least one ledge surface (15a), which is made at the suction hole (3), in a position axially spaced at least from the interaction with this element for in order to abut the duct (8) in the second position to ensure that the collector (1) is held in two directions relative to the duct (8) in the axial direction of the joint. 3. The collector according to claim 1 or 2, characterized in that at least one holding element (10) is configured to provide a snap-in snap-fit connection of the collector (1) to the casing (8). 4. The collector according to claim 3, characterized in that at least one holding element (10) is shaped so as to provide elastic deformation in the first position after interacting with the duct (8) at the stage of mutual engagement between the collector and the duct, in order to return due to the elastic return action to the second position, as soon as the axial engagement of the collector (1) with respect to the box is eliminated. 5. The collector according to claim 2, characterized in that the ledge surface (15a) is formed on an annular flange (15), which extends radially from the collector nozzle (6) and which extends into the axis-spaced position from the retention element (10). 6. The collector according to claim 5, characterized in that the flange (15) is installed in a position facing the corresponding second end (11b) of each protrusion (11) of the plurality of protrusions that are made on the nozzle, and the protrusions (11) are located on the same the distance at the nozzle and at the same axial distance from the protruding flange (15). 7. The collector according to claim 1, characterized in that it has many holding elements (10) that have angular spacing around the circumference of the suction hole (3). 8. The collector according to claim 7, characterized in that the holding elements (10) constituting a plurality are spaced at the same distance from each other. 9. The collector according to claim 1, characterized in that at least one retention element (10) is formed as one part with the collector. 10. A collector according to claim 9, characterized in that said at least one retention element (10) is formed in a part of the collector nozzle (6). 11. The collector according to claim 10, characterized in that at least one holding element (10) comprises a protrusion (11) having an end (11a) for abutting the nozzle (6) and an opposite edge (11b), which it is free and abuts against the box (8) in the second position, and the protrusion (11) is made with the possibility of elastic deformation in the mainly radial direction between the first position and the second position. 12. The collector according to claim 11, characterized in that the second end (11b) comprises a surface (12) for abutment in the duct (8) having a curved or straight profile.

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