DE69631459T2 - jet fan - Google Patents

Description

background Field of the Invention

The present invention relates on an axial fan attached to a piece of ceiling Tunnels is attached to an air jet to ventilate the Eject inside the tunnel. This Type of axial fan is generally called a nozzle fan designated.

description the state of the art

The nozzle fan that is in the tunnel attached creates a thrust around one in the longitudinal direction to create a flowing air flow, for ventilation of air inside the tunnel. The air inside of the tunnel from the nozzle fan a pressure that corresponds to a value obtained by dividing of the thrust generated through the tunnel section. By a Increase in traffic in the tunnel or an increase in electricity consumption there has been an increasing need for strengthening the ventilation through the nozzle fan, in such a way that the nozzle fan a stronger boost generate and a higher Should have efficiency.

9 represents a conventional nozzle fan, which is a cylindrical housing 101 , an electric motor 102 , which is housed in it, and an impeller 103 that directly with the electric motor 102 connected. The nozzle fan, which in 9 is shown also includes substantially cylindrical front and rear silencers 104 to absorb the noise made by the impeller 103 be generated.

10 represents another conventional nozzle fan having a plurality of inlet guide vanes 105 having.

11 represents another conventional nozzle fan having a plurality of outlet vanes 106 having.

If the electric motor 102 rotating in these conventional nozzle fans increases the impeller 103 the air pressure to create an air flow. Because this type of airflow has a rotating component, the nozzle fan that is in. 10 or 11 is shown and the guide vanes 105 or 106 has the rotating component of the air flow and therefore it has a higher efficiency than that in 9 shown.

FR 1 601 611 A, the known Closest prior art from which the invention is based, provides a nozzle fan for ventilation of an interior of a tunnel, the nozzle fan being a substantially cylindrical housing includes an electric motor housed therein, an impeller connected to the electric motor, and an amplifier ring, which is concentric with the housing is arranged and, with respect to a direction of an air flow, downstream located by this.

With the conventional nozzle fans, however the thrust generated determines the product of three values: the air density, the mass flow that flows through the nozzle fan, and the speed of an air jet that is expelled from a silencer. consequently only leads an increase in either mass flow or speed of the air jet to an increase in thrust.

Summary the invention

It is a task of the present Invention to introduce a highly efficient nozzle fan which is capable of generating a strong boost to air pressure to increase further within the tunnel without the volume flow and increase the speed of the air jet.

Another task of the present Invention is the nozzle fan of the type described above, which has a simple structure and can be manufactured at low cost.

In accordance with a first one Aspect of the present invention, a nozzle fan is presented, for ventilation the inside of a tunnel, the nozzle fan comprising: a essentially cylindrical housing, an electric motor that housed an impeller that runs on the electric motor connected and an amplifier ring, which is concentric with the housing is arranged and, with respect to a direction of an air flow, downstream located by this, characterized in that the amplifier ring has a leading edge which is opposite an air outlet of the Nozzle fan arranged and has a trailing edge with a smaller diameter than the front edge, but with a larger one than the air outlet, being the amplifier ring also a wing cross-sectional profile or has a cross-sectional profile of a curved disc in one to the longitudinal axis of the housing transverse direction, and having an upper surface a cross-sectional profile of a wing or a curved disc has, like its inner surface, and the amplifier ring on the substantially cylindrical housing by means of a plurality of radial ribs is attached which is a polygonal section, have a round section or a streamlined section.

In accordance with a second aspect of the present invention, there is provided a nozzle fan for ventilating the interior of a tunnel, the nozzle fan comprising: a substantially cylindrical housing, ei NEN electric motor, which is housed therein, an impeller, which is connected to the electric motor and an amplifier ring, which is arranged concentrically to the housing and is downstream of this in relation to a direction of an air flow, characterized in that the intensifier ring has a leading edge which is located opposite an air outlet of the nozzle fan and has a rear edge with a smaller diameter than that of the front edge but with a larger diameter than that of the air outlet, the amplifier -Ring also has an airfoil cross-sectional profile or a cross-sectional profile of a curved washer, as seen in a direction transverse to the longitudinal axis of the housing, and which has an upper surface with a cross-sectional profile of an aerofoil or curved washer, such as its inner surface, and the amplifier- Ring using a support rod on a ceiling of the tunnel is attached.

In a preferred embodiment The present invention uses another amplifier ring presented, which is arranged concentrically to the housing and, in relation to the direction of air flow, downstream of this one.

The structure described above creates a buoyancy force and a resistance force on the amplifier ring, through the use of an air flow that is derived from the ambient air results in a fast flowing Air jet is drawn in. One arising from the buoyancy and the force resulting from the resistance force has an axial partial force directed in the opposite direction to the air jet and which creates a thrust on the amplifier ring. Because the airflow receives a force in its direction as a back pressure the thrust on the amplifier ring is generated, the nozzle fan the present invention further the air pressure within the tunnel increase compared with the conventional Nozzle fan, the no amplifier ring having.

Short description of the pictures

The above and other tasks and Features of the present invention will become apparent from the following description of their preferred embodiments more clearly, with reference to the accompanying figures, in which same parts are identified by the same reference numerals. Show it:

1 a sectional view of a nozzle fan according to a first embodiment of the present invention;

2 a view similar to that of 1 , but according to a second embodiment of the present invention;

3 a view similar to that of 1 but according to a third embodiment of the present invention;

4 a view similar to that of 1 , but according to a fourth embodiment of the present invention;

5 a view similar to that of 1 , but according to a fifth embodiment of the present invention;

6 a graph showing forces exerted on an amplifier ring;

7 a graph showing a relationship between the distance from an airflow outlet to a leading edge of the booster ring and the thrust generated on the booster ring;

8th a sectional view of the measured amplifier ring; 9 a sectional view of a conventional nozzle fan;

10 a view similar to that of 9 , which is another conventional nozzle fan; and

11 a view similar to that of 9 , which represents another conventional nozzle fan.

Full Description of the preferred embodiments

Now referring to the illustrations, in 1 a nozzle fan according to a first embodiment of the present invention. As shown therein, the nozzle fan comprises a generally cylindrical housing 1 , an electric motor 2 which is housed in an impeller 3 that directly with the electric motor 2 is connected, and essentially cylindrical front and rear silencers 4 to absorb noise from the impeller 3 be generated. The nozzle fan further comprises an amplifier ring 8th , which has an airfoil cross-sectional profile or a cross-sectional profile of a curved disc, seen in one to the longitudinal axis of the housing 1 transverse direction. The amplifier ring 8th is attached to the generally cylindrical rear silencer 4 , in a concentric relationship to this, by means of a plurality of radial ribs 7 , The amplifier ring 8th has an upper surface as well as an inner surface with a cross-sectional profile of an airfoil or a curved disk, and also has a front edge which is arranged opposite an air or air jet outlet of the nozzle fan and a rear edge with a smaller diameter than that of the front edge, but with a larger one than that of the air outlet.

If the electric motor 2 rotates, creates the impeller in the construction described above 3 an air flow, which then returns as an air jet through the rear silencer 4 occurs. The air jet draws ambient air into the amplifier ring 8th . to form an air flow that is directed to it. As a result, a buoyancy force L and a drag force D are applied to the booster ring 8th exercised as in 6 is pictured. A resultant force from the buoyancy force L and the resistance force D has a partial force Tt, which is in a direction axially to the housing 1 acts. This partial force Tt is directed in the opposite direction to the air flow and is regarded as a thrust on the amplifier ring 8th is exercised.

7 shows an example of measurement results of the thrust Tt on the amplifier ring 8th is exercised; while 8th shows an amplifier ring used in the measurement. 7 shows a relationship between the distance (x) from the air jet outlet (outlet diameter: 100 mm) to the front edge of the booster ring 8th and the thrust Tt exerted on the intensifier ring with the velocity of the air jet as a parameter. 7 shows that the thrust Tt was generated on the amplifier ring when the velocity of the air jet 8th m / s, 17.7 m / s, 21.7 m / s or 27.7 m / s and if the distance (x) is between 0 and 350 mm.

As a back pressure on the thrust Tt, this way on the amplifier ring 8th generated, the air jet receives an amplifier force Fj in the direction of the air jet. Consequently, the setup of the amplifier ring allows 8th , as in 1 shown, the nozzle fan, increased thrust and higher efficiency and thus allows to increase the air pressure inside the tunnel.

It should be noted here that although the amplifier ring 8th in the embodiment described above in such a way that it has a wing cross-section, it can also have a cross-section of a curved disc, insofar as it has a streamlined inner surface. It should also be noted that the amplifier ring 8th can be formed from an annular, substantially flat plate. In this case, however, the substantially flat plate is bent to have a radially inward projecting, substantially curved shape in the direction of the air jet.

It should also be noted that although the radial ribs 7 may have a polygonal section such as a rectangular section or a round section, they preferably have a streamlined section in order to reduce air resistance or pressure loss.

2 FIG. 12 illustrates a nozzle fan according to a second embodiment of the present invention, which is similar in construction to the nozzle fan of FIG 1 has, but also a plurality of inlet guide vanes 5 comprises, which are fixedly attached around the electric motor 2 and with respect to a direction of the air flow upstream of the impeller 3 are arranged.

3 FIG. 12 illustrates a nozzle fan according to a third embodiment of the present invention, which is similar in construction to the nozzle fan of FIG 1 has, but also a plurality of outlet guide vanes 6 comprises, which are fixedly attached around the electric motor 2 and in relation to the direction of the air flow downstream of the impeller 3 are arranged.

Each of the structures in the 2 and 3 are shown, can reduce the rotating component of the air flow through the impeller 3 is produced. As a result, the thrust generated by the nozzle fan, as well as its effectiveness, can be further increased compared to the nozzle fan of FIG 1 to increase the air pressure inside the tunnel.

4 FIG. 12 illustrates a nozzle fan according to a fourth embodiment of the present invention, which is identical in construction to the nozzle fan of FIG 1 has, but another amplifier ring 8th has on the substantially cylindrical rear silencer 4 is attached, in a concentric relationship to this, by means of a plurality of radial ribs 7 ,

It should be noted that although the nozzle fan that is in the 1 to 4 is shown one or two amplifier rings 8th has, this can also have three or more concentrically arranged amplifier rings.

5 shows a nozzle fan according to a fifth embodiment of the present invention, comprising: a substantially cylindrical housing 1 , an electric motor 2 which is housed in an impeller 3 that directly with the electric motor 2 connected, and substantially cylindrical front and rear silencers 4 , The nozzle fan from 5 also includes an amplifier ring 8th , which is not directly connected to it, but on the ceiling of the tunnel with the help of a support rod 9 is attached so that the housing 1 and the amplifier ring 8th are axially aligned in a concentric ratio.

As described above, according to the present invention, the at least one amplifier ring carries 8th that is concentric to the housing 1 is arranged to increase the thrust and also the efficiency, and in this way increases the air pressure within the tunnel. Thus, assuming that the amount of ventilation required is the same, the nozzle fan of the present invention can reduce the power consumption or the number of them required compared to the conventional case.

Claims (2)

A nozzle fan to ventilate the inside a tunnel, the nozzle fan comprising: an essentially cylindrical housing ( 1 ), an electric motor ( 2 ), which is housed in an impeller ( 3 ) with the electric motor ( 2 ) and an amplifier ring ( 8th ) which is concentric to the housing ( 1 ) and is located downstream of an air flow direction, characterized in that: the booster ring ( 8th ) has a leading edge, which is arranged opposite an air outlet of the nozzle fan, and a trailing edge, which has a smaller diameter than that of the front edge but a larger diameter than that of the air outlet, the booster ring ( 8th ) also has an airfoil cross-sectional profile or a cross-sectional profile of a curved pane, seen in one relative to the longitudinal axis of the housing ( 1 ) transverse direction, and which has an upper surface with a cross-sectional profile of a wing or a curved disc, such as its inner surface, and the reinforcing ring ( 8th ) either on the essentially cylindrical housing ( 1 ) using a plurality of radial ribs ( 7 ) which have a polygonal section, a round section or a streamlined section, or by means of a support rod ( 9 ) is attached to a ceiling of the tunnel. The nozzle fan of claim 1, further comprising a further amplifier ring ( 8th ) which is concentric with the housing ( 1 ) is arranged and is downstream of the direction of the air flow.