RU45482U1 - CHANNEL FAN - Google Patents

Abstract

The invention relates to duct fans with a radial impeller (RC). Effect: providing static pressure while maintaining the performance of the fan with a rectangular housing. The fan comprises a housing 1 with a rectangular channel 5 and flat surfaces, an engine connected by a hub 9 to the RC with the main 6 and the cover discs and backward curved blades 8, a suction pipe connected to the housing 1 with a surface forming a confuser gap with the surface of the cover disc. The length A, B of the sides of the channel 5 and the diameter D of the PK correspond to the conditions: 1.5 А A / B 2 2.2; 1.15≤B / D≤1.45; 4AB / πD ² ≥2.4. The housing 1 can be performed with panels 14 of heat and sound insulating material, connecting flanges 13 and a guide apparatus in front of the confuser gap. The blades 8 can be made flat, and the cover disk with a generatrix, providing connection with the blade 8 in a straight line. 7 C.p. f-ly, 7 ill.

Description

The utility model relates to fan technology, namely, to channel fans with a radial impeller.

Channel fans with a radial impeller are known in the art. So, from the description of the invention to the patent of the Russian Federation No. 21585837, IPC F 04 D 17/08, publication date 08/27/99, a channel fan is known comprising a housing, an engine, an impeller and a suction pipe, the housing is made with a cylindrical surface of the channel, the impeller is kinematically connected to the engine, contains the main and cover disks and the vanes bent backward located between them, the suction pipe is located at one of the ends of the housing and is symmetrical and with a curved profile in the diametric section, with the formation of a confuser gap and between the surfaces the coating and the suction disc, the impeller rotation axis parallel to the axis of symmetry of the suction pipe. The disadvantage of the invention, taken as the closest analogue, is the limitation of the size of the cross section of the channel in the housing to 1.5 impeller diameters, which leads to the need to manufacture additional adapters when connecting the fan to air ducts with a rectangular channel cross section with a channel side length ratio of more than 1.4 .

The technical problem to be solved is the creation of a duct fan with a casing with different cross sections.

The technical result consists in providing static pressure in the channel fan with a rectangular housing while maintaining performance, and the possibility of connecting the channel

a fan with an air duct of the corresponding rectangular section without additional adapters.

Disclosure of a utility model.

The channel fan, as in the closest analogue, contains a casing, an engine, an impeller and a suction pipe, the casing is made with a cylindrical surface of the channel, the impeller is kinematically connected to the engine, contains a main and a covering disc and the vanes bent backward between them, a suction pipe located on one of the ends of the housing, made symmetrical and with a curved profile in diametric section with the formation of a confuser gap between the surfaces of the casing disk and the suction cartridge bk, the axis of rotation of the impeller is parallel to the axis of symmetry of the suction pipe, but, in contrast to the closest analogue, the channel surfaces in the housing are made flat, while the lengths of the larger A and smaller B sides and the diameter of the impeller D are interconnected as follows: 1, 5≤A / B≤2.2; 1.15≤B / D≤1.45; 4AB / πD ² ≥2.4.

The duct fan is characterized by the fact that connecting flanges are fixed at the ends of the casing.

The duct fan is characterized in that, on the outside of the casing, panels are installed containing heat-insulating and / or sound-absorbing material.

The duct fan is characterized in that the impeller blades are made flat.

The channel fan is characterized by the fact that the generatrix of the curved cover disk on the mounting area of the impeller blades is made in accordance with the equations:

y = (0.29 ± 0.01) x + 0.37

z = (- 0.39 ± 0.01) x-0.27

r ² = x ² + y ² ,

where: z = Z / D is the relative coordinate directed along the axis of rotation of the impeller in the direction from the main disk to the entrance to the impeller;

x = X / D is the relative coordinate perpendicular to the axis of rotation of the impeller;

y = Y / D is the relative coordinate perpendicular to the z axis and x axis;

r = R / D is the relative radius of the impeller,

R is the current radius of the impeller;

X, Y, Z - current coordinates;

D is the diameter of the impeller.

The channel fan is characterized by the fact that a screen is installed in the channel of the casing, connected to the casing with the formation of a cavity between the screen, the casing and the suction pipe, while the edge of the screen is located at a distance of 0.01 ... 0.10 of the width of the impeller blades from the cover disk towards the main disk and spaced from the indicated blades by 0.05 ... 0.10 of the diameter of the impeller.

The duct fan is characterized in that it is equipped with a guide apparatus made in the form of at least one plate mounted in the channel of the housing between the suction nozzle and the impeller cover disk, and at least one of the guide apparatus plates is installed in front of the confuser the gap.

The duct fan is characterized in that it is equipped with a guide apparatus located in the cavity between the screen, the housing and the suction pipe and made in the form of at least two plates connected to the walls of the housing and / or screen, while one of the edges of these plates is located between the end face of the suction pipe body and the edge of the cover disk from the input side of the impeller, and the beginning of the impeller blades from the side of the cover disk.

The utility model is illustrated by drawings.

Figure 1 shows a longitudinal section of a channel fan.

Figure 2 shows a view A of figure 1.

Figure 3 shows a section bB in figure 1 in an embodiment of the housing with panels with heat-insulating and / or sound-absorbing material.

Figure 4 shows the remote element D in figure 1.

Figure 5 shows the remote element In figure 1.

Figure 6 shows the remote element G in figure 1.

In Fig.7 shows the remote element E in Fig.2.

Implementation of a utility model.

The channel fan comprises a housing 1, an engine 2, an impeller 3, and a suction pipe 4 (FIG. 1). The housing 1 is made with a channel 5 (FIGS. 2, 3) having flat surfaces with a contour in cross section in the form of a rectangle (i.e., with a cylindrical surface of the channel with a base in the form of a rectangle). The impeller 3 comprises a main 6 and a cover 7 discs, the blades 8 placed between them, bent backward in the direction of rotation of the wheel (Fig. 3), and kinematically connected to the motor 2, for example, by means of a hub 9 mounted on the main disk 6 and connected to the shaft 10 of the engine 2 (figure 4). The suction pipe 4 is located at the end of the housing 1 and is made with a curved profile in a diametrical section, with the formation of a confuser gap 11 between the surfaces of the cover disk 7 and the suction pipe 4 (Fig. 3). The axis 12 of the rotation of the impeller 3, as a rule, coincides with the axis of symmetry of the suction pipe 4, or parallel to it. The housing 1 is made in such a way that in the cross section of the housing (FIG. 3) the length A, B of the large and small sides of the channel 5, the ratio of the length of the small side B of the channel 5 to the diameter D of the impeller 3 and the ratio of the cross-sectional area S == AB channel 5 to the space S _Pk = πD ^2/4 of the impeller 3 (corresponding to the area bounded by the circle described by the end portions of the blades 8) correspond to the following conditions:

1.5≤A / B≤, 2.2; 1.15≤B / D <1.45; S / S _pK ≥2.4.

To connect with air ducts at the ends of the housing 1, connecting flanges 13 are fixed. On the outside of the housing 1, panels 14 can be installed containing heat-insulating and sound-absorbing material (Fig. 3).

The impeller 3 can be made with flat blades 8. To ensure the intersection of the flat blades 8 with the surface of the casing disk 7 in a straight line, the generatrix of the casing disk 7 at the attachment point of the blades 8 of the impeller 3 is made in accordance with the equations y = (0.29 ± 0, 01) x + 0.37; z = (- 0.39 ± 0.01) x-0.27; r ² = x ² + y ² .

In addition, in the channel 5 of the channel fan, a screen 15 can be installed connected to the walls of the housing 1 (Fig. 1), the edge 16 of which faces the blades 8 and is removed from the cover disk 7 towards the main disk b by a distance L equal to 0.01 .. .0.10 the width of the Blades 7 at its outer diameter D, and from the blades 8 at a distance C equal to 0.05 ... 0.10 of the diameter D of the impeller 3: L = (0.01 ... 0.10) H; C = (0.05 ... 0.10) D (Fig. 6). In this case, a cavity 17 is formed between the screen 15, the housing 1, the suction pipe 4 and the surface of the cover disk 7 (Fig. 1).

The duct fan can be equipped with a guide apparatus made in the form of at least one plate 18 installed in the channel 5 of the housing 1 between the suction pipe 4 and the cover disk 7 of the impeller 3. At least one of the plates 18 of the guide apparatus is installed in front of the confuser the gap 11 (figure 1, 5).

When performing a channel fan with a screen 15, the guide apparatus is located in the cavity 17 and contains at least two plates 19 connected to the walls of the housing 1 and / or the screen 15. The edge 20 of the plate 19 is located between the edge 21 of the cover disk 7 from the side of the suction pipe 4 and the beginning of the blades 8 of the impeller 3 from the side of the cover disk 7.

In a preferred embodiment, the channel fan contains an impeller 3 with at least 9 flat blades 8 bent backward, having a width H> 0.3D, the generatrix of the cover disk 7 corresponds to the equations y = (0.29 ± 0.01) x + 0 , 37, z = (- 0.39 ± 0.01) x-0.27, r ² = x ² + y ² , which ensures the intersection of the edge of the blade 8 with the surface of the cover disk 7 in a straight line (technological errors in the manufacture of the cover disk 7 and the wear of the equipment used in its manufacture can be: ± 0.01x), between the cover disk 7 and the suction pipe 4 there is onfusor gap 11. At the ends of the housing 1, flanges 13 are installed, inside the channel 5, plates 17 of the guide apparatus are installed in front of the confuser gap 11. On the walls of the housing 1 are fixed panel 14 with heat-insulating and sound-absorbing material. The aspect ratio A, B of the channel 5 of the housing 1, the length B of the small side to the diameter D of the impeller 3 and the area S of the cross section of the channel 5 to the area S of the _RK of the impeller 3 are equal: A / B = 2, B / D = 1.25 , S / S _PK = 4AB / πD ² = 4.

Channel fan operates as follows. Upon rotation of the impeller 3 for the outlet of the impeller 3 has a kinetic rotational energy, and creates a dynamic pressure ρu ^2/2 where ρ - air density, u - tangential velocity at the outer diameter of the impeller 3. Due confuser annular gap 11 and the plates 18 of the guide vane installed in front of the confuser gap 11, the flow is inhibited, the static pressure rises and rings are formed in front of the confuser gap 11 and on the inner surface of the cover disk 7 I jet of air issuing from the confuser annular gap 11 on the inner surface of the coating disc 7. In this tightened boundary layer separation (flow) on the inner surface of the coating disc 7, thus increasing the width of the impeller blades, up to 0.38

impeller diameter 3: H = 0.38D. When the ratio of the cross-sectional area S of the channel 5 of the housing 1 to the impeller _R S square S / S _PK ≥2.4, the flow behind the impeller 3 expands, the flow rate decreases, and the static pressure rises. Moreover, studies have shown that the cross-sectional shape of channel 5 does not play a major role in restoring pressure. This allows you to perform channel 5 of various shapes. When the surface of the channel 5 is cylindrical, the aerodynamic drag losses are reduced and the efficiency of the fan is increased, and the contour of the cross section of the channel 5 can be in the form of a circle with a guide apparatus containing, for example, blades 18, ellipse, square, polygon, rectangle, etc. , and fit or coincide with the contour of the ducts, without the use of additional adapters. However, the distance from the blades 8 of the impeller 3 to the walls of the channel 5 affects the loss of energy flow. It was experimentally established that when the distance from the walls of the channel 5 to the impeller 3 is less than 0.075 of the diameter of the impeller 3 (which corresponds to the condition 1.15≤B / D), the losses begin to increase rapidly, and when the distance increases by more than 0.22 diameter (which corresponds to the condition B / D≤1.45} the flow rate in the channel behind the impeller 3 is significantly reduced and losses are reduced significantly. Considering the ratio of the cross-sectional areas of the channel 5 and the impeller 3, the ratio of the lengths of the larger and smaller sides of the channel 5 should be specified within limits: 1.5≤A / B≤2.2; S / S _PK ≥2.4.

The presence at the ends of the housing 1 of the flanges 13 increases the manufacturability of the connection of the channel fan to the air ducts and other units of ventilation units (heaters, filters, silencers, etc.). The execution of the housing 1 with panels 14, containing heat-insulating and sound-absorbing material, reduces noise and improves consumer properties of the fan (figure 3). The execution of the impeller 3 with flat blades 8 increases the manufacturability of the fan. While doing

the surface of the cover disk 7 on the mounting area of the blades 8 with a generatrix corresponding to the equations: in a straight line y = (0.29 ± 0.01) x + 0.37, z = (- 0.39 ± 0.01) x-0, 27, r ² = x ² + y ² , (these equations can be obtained by simple linear transformations of the coordinate system, the value ± 0.01 takes into account possible technological errors in the manufacture of the impeller 3), the blades 8 are connected in a straight line with the surface of the cover 7 of the disk, which increases the manufacturability of the fan.

The fan is equipped with a screen 15 connected to the walls of the housing 1 (Figs. 1, 6) with edges 16 facing the blades 8 and the outer surface of the cover disk 7 of the impeller 3, and located at a distance L = (0.01 ... 0.10) H from cover disk 6 towards the main disk 7 and from the blades 8 at a distance C = (0.05 ... 0.10) D leads to an increase in pressure in the cavity 17, which increases the intensity of the jet blown from the confuser annular gap 11. Installation of a guide vane in the cavity 17 containing at least two plates 18 connected to the walls of the core 1, and with an edge 19, located between the end of the housing 1 and the edge 21 of the cover disk 7 from the side of the suction manifold 4 and the beginning of the blades 8 of the impeller 3 from the side of the cover disk 7, further inhibits the flow, which increases the static pressure in the cavity increases the intensity of the jet formed in the confuser gap 11 and blown onto the surface of the cover disk 7.

The utility model can be implemented in any specialized enterprise. The set of features presented in the description of the utility model is sufficient to create channel fans in a rectangular case in a wide range of aspect ratio of channel 5 without additional inventive creativity.

Claims (8)

1. A duct fan comprising a housing, an engine, an impeller, and a suction nozzle, the housing is made with a rectangular channel contour in a cross section perpendicular to the axis of rotation of the impeller, the impeller is kinematically connected to the motor, contains a main and cover discs and bent backward between them the blades, the suction pipe is located on one of the ends of the housing, is made symmetrical and with a curved profile in the diametric section with the formation of a confuser gap between the surfaces of the surfaces of the wash disk and the suction nozzle, the axis of rotation of the impeller is parallel to the axis of symmetry of the suction nozzle, characterized in that the surface of the channel in the housing is made flat, while the lengths of the larger A and less B sides and the diameter of the impeller D are interconnected as follows: 1.5 ≤ A / B ≤ 2.2; 1.15≤ B / D≤ 1.45; 4AB / π D ² ≥ 2.4. 2. The channel fan according to claim 1, characterized in that the connecting flanges are fixed to the ends of the housing. 3. The channel fan according to claim 1 or 2, characterized in that on the outside of the casing there are panels containing heat-insulating and sound-absorbing material. 4. The channel fan according to claim 1, characterized in that the impeller blades are made flat. 5. The channel fan according to claim 4, characterized in that the generatrix of the curved cover disk in the area of attachment of the impeller blades is made in accordance with the equations: y = (0.29 ± 6.01) x + 0.37, z = (- 0.39 ± 0.01) x-0.27, r ² = x ² + y ² , where z = Z / D is the relative coordinate directed along the axis of rotation of the impeller in the direction from the main disk to the entrance to the impeller; x = X / D is the relative coordinate perpendicular to the axis of rotation of the impeller; y = Y / D is the relative coordinate perpendicular to the z axis and x axis; r = R / D is the relative radius of the impeller; R is the current radius of the impeller; X, Y, Z - current coordinates; D is the diameter of the impeller. 6. The duct fan according to claim 1, characterized in that a screen is installed in the housing channel, connected to the housing to form a cavity between the screen, the housing and the suction pipe, while the edge of the screen is located at a distance of 0.01 ... 0.10 width the blades of the impeller from the cover disk towards the main disk and is 0.05 ... 0.10 of the diameter of the impeller from these blades. 7. The channel fan according to claim 1, or 4, or 5, or 6, characterized in that it is equipped with a guide apparatus made in the form of at least one plate mounted in the channel of the housing between the suction pipe and the impeller cover disk at the same time, at least one of the plates of the guide apparatus is installed in front of the confuser annular gap. 8. The duct fan according to claim 6, characterized in that it is equipped with a guide apparatus located in the cavity between the screen, the housing and the suction pipe and made in the form of at least two plates connected to the walls of the housing and / or screen, this one of the edges of these plates is located between the end of the housing of the suction pipe and the edge of the cover disk from the entrance to the impeller, and the beginning of the impeller blades from the side of the cover disk.