RU2429384C2 - Support device for pressure gages arranged inside radial-flow fan compression chamber, particularly, for vent chimneys or flue exhaust - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: proposed device is arranged inside radial-flow fan compression chamber 7 and comprises housing 11 accommodating through tube 12 arranged along lengthwise axis and exposed at both faces 12a, 12b. Said housing comprises first part 13 to rest on fan housing and second part 15 to dip in flow generated by fan compression chamber by setting tube end face inside said flow to measure pressure signal. Note here that second part 15 features cross section located across lengthwise direction and has aerodynamic profile shape with low drag.

EFFECT: higher efficiency of ventilation.

6 cl, 5 dwg

Description

The present invention relates to a support device for pressure sensors installed inside centrifugal fans, having the features set forth in the restrictive part of independent claim 1.

The invention relates in particular to the field of centrifugal fan technology for use in ventilation fireplaces or smoke exhaust devices. In this special field, it is known to use fans of this type as devices for the removal of vapors, combustion fumes, exhaust gases, as well as in all applications requiring the extraction and transportation of usually gaseous mixtures. In conventional embodiments, centrifugal fans with a spiral housing are used, having an impeller in the form of a cylindrical drum and extending in the axial direction of the blade. The housings of these fans also have a lateral inlet and a tangential inlet, between which passes a spiral compression chamber, the volume of which is formed between the housing and the impeller.

In fans of this type it is known to use one or more pressure sensors capable of reading the corresponding pressure signals inside the fan compression chamber, and these signals are usually used to calculate the air flow of the fan or to transmit control signals on / off to a boiler or similar device associated with the fan .

These pressure sensors typically have a tubular support extending through an opening in the fan housing, the tubular cavity of which forms a pressure signal sensor pipe. The support has a part that protrudes into the compression chamber having a predetermined length to ensure that the signal is removed in the set position within the flow created by the fan. However, the presence of a pressure sensor causes aerodynamic drag inside the fan, which can have a negative effect on its operation, which limits the efficiency of the entire ventilation system.

The main objective of the present invention is to provide a support device for pressure sensors to be located inside the compression chambers of centrifugal fans, designed to overcome the disadvantage of the prior art.

This goal is achieved according to the invention with the support device for pressure sensors made in accordance with the following claims.

Additional features and advantages of the invention result from the following detailed description of a preferred embodiment, shown by way of non-limiting example in the accompanying drawings, in which:

1 and 2 are a perspective view of a support device for pressure sensors according to the invention;

Figure 3 is a partial perspective view of a centrifugal fan equipped with a device according to the invention;

4 and 5 are perspective views of an embodiment of the device according to the invention.

The above figures show only part of a centrifugal fan, specially designed for ventilation fireplaces or smoke exhaust devices.

The fan 1 comprises a housing 2 with a spiral external profile, which is formed by two halves of the housing, which are connected to each other in a detachable manner, of which only one half, indicated by 2a, is shown in FIG. 3, while both halves of the housing are made essentially mirror symmetry about the middle plane of the joint.

A cylindrical drum impeller 3 is arranged in the casing, having a section 4 of axially extending blades, the impeller being rotatable about the X axis. The casing also has a tangential feed opening 5 and a second inlet lateral hole coaxial to the X axis made in half case not shown in the drawings.

A compression chamber 7 is formed inside the housing around its helical length, and its volume is formed between the drum of the impeller 3 and the profile 3a of the inner surface of the housing.

Inside the fan 1 is a support device 10 for the pressure sensor, made according to the invention. This device, as shown in Figs. 1 and 2, has a body 11 with a substantially longitudinal passage, in which a passage pipe 12 is located, extending in the indicated longitudinal direction and open at both ends 12a, 12b. In the casing 11 there is a first part 13 for supporting the fan casing, which has a structure with a cylindrical surface with a cross-section for entering the corresponding hole (not shown) made through the casing wall. The connecting part 13 extends at one end into a disk base 14 having a plate shape or another suitable shape, from which the second part 15 protrudes in the axial direction of the first part. This part 15 forms a part of the device that is immersed in the stream created by the fan compression chamber 7, and has a selected longitudinal length to provide a predetermined location of the open end 12a of the pipe 12 within the flow to create a corresponding pressure signal in this position. The pressure signal can be used to control the on / off signal (transmitted to the pressure switch) of a boiler or other similar device, or it can be used to determine the air flow generated by the fan using a converter.

According to the main feature of the invention, the second part 15 of the housing 11 has a section that lies transverse to the longitudinal passage having an aerodynamic profile 16 with a small drag coefficient, as shown in FIG.

The aerodynamic profile 16 is preferably unchanged along the longitudinal direction of the portion 15 and has corresponding outer and inner sections 17, 18 extending between the respective leading edge 19 and the trailing edge 20 of the profile, as is usually the case with the transverse profile of the aerodynamic surface.

The aerodynamic profile 16 may also be symmetrical about a plane containing the aerodynamic chord 21, although other configurations are also possible.

The aerodynamic profile 16 can also be selected from standard profiles, for example from profiles well known as NACA profiles.

Due to the aerodynamic profile of part 15, a significant reduction in the resistance created by the device immersed in the flow created by the fan is achieved, which leads to an improvement in the overall performance of the ventilation system in which the fan is used. A favorable interaction with the flow is also created, due to which the support device can also be used as a diffuser with blades, i.e. it can (when choosing a suitable shape and size) deflect the flow, thereby reducing speed and increasing pressure.

You can use one or more pressure sensors in the device according to the invention for measuring pressure or to obtain multiple pressure signals.

Figures 4 and 5 show an embodiment of the device according to the invention, in which parts similar to the previous embodiment are denoted by the same reference numbers.

This embodiment differs mainly in that at the free end 12a of the pipe 12, the plane containing the aerodynamic profile 16 is inclined relative to the plane perpendicular to the axis of the pipe. As shown in FIGS. 4 and 5, this end plane has such an inclination that the trailing edge 20 of the aerodynamic profile 18 is located at a shorter distance from the base 14 than the distance of the leading edge 19 from the base 14, however, you can use the opposite inclination of the plane containing the aerodynamic profile. Due to this inclination, it is possible to change the magnitude of the pressure signal issued by the sensor, depending on the degree of inclination, which provides greater freedom in the selection and use of signals for matching with specific applications.

Thus, the invention provides the achievement of goals leading to these advantages, compared with the known solutions.

In particular, this includes the fact that the use of a profile with a reduced resistance coefficient to create a pressure sensor immersed in the air flow created by the fan preferably significantly reduces the interference and disturbances of the flow, which preserves or improves the performance of the fan and the ventilation system as a whole.

Claims (6)

1. A support device for pressure sensors configured to install centrifugal fans (1) in compression chambers (7), comprising a housing (11) with a substantially longitudinal passage, with a passage pipe (12) extending inside and along the longitudinal passage direction and open on longitudinal ends (12a, 12b), wherein said casing comprises a first part (13) for supporting the fan casing and a second part (15) extending from said first part (13), configured to be immersed in a stream created by a measure (7) of the compression of the fan, by predetermined positioning of the corresponding end hole of the pipe inside the specified stream, in order to measure the pressure signal using the pipe (12), characterized in that the second part (15) of the specified housing (11) has a cross section across the specified direction longitudinal passage in the form of an aerodynamic profile with a low drag coefficient. 2. The device according to claim 1, in which the specified aerodynamic profile is constant along the specified direction of longitudinal passage of the specified second part (15). 3. The device according to any one of claims 1 or 2, wherein said aerodynamic profile is symmetrical. 4. The device according to claim 1, wherein said aerodynamic profile is selected from standard aerodynamic profiles. 5. The device according to claim 4, in which the specified aerodynamic profile is a NACA profile. 6. The device according to claim 1, in which the plane containing the aerodynamic profile of the free end of the specified second part (15) is inclined relative to the plane perpendicular to the direction of longitudinal passage of the specified pipe (12).

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