The present invention relates to a diffuser adapted for being mounted at the downstream side of a blower and comprising a diffuser shroud being substantially circular symmetrical about an axis of symmetry and having a upstream side provided with means for attaching the diffuser to the exhaust end of a blower pipe and a downstream side opposite the upstream side, and where the diffuser shroud encircles a diffuser opening having a cross section perpendicular to the axis of symmetry that increases from the upstream side to the downstream side of it, and where a back draft damping butterfly valve is arranged in the diffuser opening, the butterfly valve comprising two doors both being attached to the diffuser shroud via a hinge arrangement adapted for allowing each of the two doors to rotate between a closed and an open position about a hinge axis extending between opposite sides of the diffuser shroud and where the doors are shaped so that they together substantially closes the diffuser opening when they are in their closed position
An example of such a diffuser is known in various different embodiments such as from e.g. US patent application no. 2013/0051999, disclosing a fan/blower where the butterfly valve is arranged in the diffuser for the purpose of efficiently reducing back draft into a ventilated space, and where a spring is arranged to ensure that the butterfly valves closes its doors when the fan/blower is not active.
Back draft dampers with butterfly valves are also known, e.g. from U.S. Pat. No. 1,743,731, in various embodiments to be arranged in e.g. ventilation ducts or heat piping, and where the hinge axes for the doors of the butterfly valves are arranged having an angle with respect to the symmetry axis of the ducts or pipes so that the doors are urged by gravity to close when the blower is inactive, and opens when it is activated. The doors of the butterfly valves according to these valve construction are not, however, completely closing the duct themselves, and thereby efficient back draft closure may require gaskets arranged inside the duct for closing the necessary distance between the inside of the duct and the doors of the butterfly valve.
On this background it is the purpose of the present invention to disclose a blower of the type mentioned in the introduction, and where the back draft valve arrangement is provided by a simple and inexpensive mechanism that creates very little airflow resistance when the blower is active and at the same time provides efficient back draft resistance when the blower is inactive.
This is achieved by a diffuser as defined by present claim 1 and especially by arranging each hinge axis so that it intersects the diffuser shroud at a position closer to the upstream side at one side than on the opposite side of the diffuser shroud.
Thereby the diffuser may advantageously be attached to, or being integrally produced, with an axial blower having a horizontal blower tube and axis of symmetry, and so that the diffuser to be positioned so that the closest position where each hinge axis intersects with the shroud on the diffuser, are arranged at the uppermost position of the shroud. Thereby, due to the angular position of the hinge axis, the doors of the butterfly valve are gravity operated so that they are urged by the gravity to their closed position when the blower is not activated.
In a preferred embodiment the hinge axis intersects the diffuser shroud at an angle substantially perpendicular to the shroud at the position closest to the upstream side, so that it is possible to design the doors of the butterfly valve with a very small clearance between the doors and the inside of the diffuser shroud.
Each of the two doors may advantageously be formed as semi elliptical door plates so that the two doors in their closed position extends virtually in the same plane and together forms a complete ellipse, and in this relation each of the door plates may furthermore have straight edges that abuts each other in said closed position of the doors, and thereby forms a dividing line between the doors corresponding to the major axis of the ellipse.
In this relation each hinge axis may preferably extend parallel with and on the downstream side of the dividing line between the doors in their closed position.
In an especially advantageous embodiment the hinge arrangement provides two hinge axes, one for each door, and where the two hinge axes are arranged at the same distance downstream from, and on opposite sides of, the dividing line, so that there is a distance between the two doors allowing flow of air between them.
In order to ensure correct positioning of the doors in their closed position, and thereby a tight fit between the doors and the diffuser shroud, then the diffuser shroud may advantageously comprise one or more projections extending from the diffuser shroud and into the diffuser opening, and where the projections are positioned so that the each of the doors, when they are positioned at their closed position, rests against one or more of the projections at their downstream side.
A further reduction of the distance between the doors and the inside of the diffuser shroud may be possible in a further preferred embodiments of the invention where the hinge arrangement comprises a first and a second hinge part mounted on opposite sides of the diffuser shroud, and where the first and second hinge parts extends completely downstream from the dividing line.
In a further advantageous embodiment each door comprises first and second complementary substantially identical hinge parts arranged near opposite ends of the straight edges, and the first complementary hinge parts and the second complementary hinge parts are connected rotatably about the hinge axes to the first and second hinge part respectively.
The hinge arrangement and/or the door plates may also comprise projections adapted for restricting the doors to rotate so that the door plates extend parallel with the axis of symmetry of the diffuser shroud, and so that the door plates, at the open position of the doors diverge from each other downstream from the hinge axes. Thereby the door plates themselves have a diffuser effect on the flow of air between them, and the door closing effect of the gravity is further increased.
A preferred embodiment of the invention comprises an axial blower having a circular symmetrical blower pipe with an axis of symmetry arranged substantially in a horizontal direction, and a blower rotor arranged so that it rotates about the axis of symmetry of the blower pipe, and wherein the axial blower comprises a diffuser according to one or more of the preceding claims, and where the axis of symmetry of the diffuser virtually coincides with the axis of symmetry of the blower pipe.
In the following one or more embodiments of the invention will be described in more detail and with reference to the drawing, where:
The butterfly valve thereby forms a one way valve providing in the closed position of the doors as shown on
In
Due to the fact that the diffuser shroud 2 has a frustoconical shape, and thereby having a cross section perpendicular to the axis of symmetry 11, then it is possible to design the doors 4, 5 with door plates each having a semi elliptical shape such as shown in
In this relation it will be obvious to the skilled person that it is also possible to designing door plates fitting closely in the opening 3 of a diffuser shroud 2 having another shape than a frustoconical shape as long as the diffuser shroud has a cross section perpendicular to the axis of symmetry that increases from the upstream side of the diffuser 1 to the downstream side.
The details of the hinges 8, 9 are shown in
In order to ensure that the doors 4, 5 are not able to open more than what is shown in the
From the description above it will be apparent to the skilled person that a diffuser according to the invention may be used in connection with, and arranged downstream from, any kind of fan or blower, such as an axial fan, a centrifugal blower or a plug fan, either directly mounted downstream of the fan, or via adaptors. In relation to axial blowers, however, and especially safe function of the diffuser it obtained when the axis of symmetry of the blower coincides with the axis of symmetry of the diffuser.
Number | Date | Country | Kind |
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PA201870066 | Feb 2018 | DK | national |