RU217495U1 - Ventilation device with asynchronous electric motor - Google Patents

Abstract

The utility model relates to devices for moving air, namely to air ventilation installations. The ventilation device comprises a flat support plate with a suction hole made in the center of the plate, on which a suction pipe is fixed coaxially to the suction hole, and six flat metal brackets are fixed, each of which consists of a rectilinear flat section mated with a curved section with a leg, which is fixed on the base plate, while the brackets are located with the formation of straight flat sections of the brackets above the base plate of the hexagonal hole and in the latter a flat hexagonal plate is installed, on which the electric motor is fixed and which is provided with side walls, while the latter are connected to adjacent straight flat sections of the brackets, and on the electric motor is fixed with a working blade wheel with a front and flat rear disks, while the flat base plate is made hexagonal, the electric motor is connected to a three-phase alternating current source and is made with a stator installed coaxially with the electric motor housing and an external rotor covering the stator, and the stator is made with assembled from thin sheet technical steel core and core winding, and the outer rotor is made in the form of a cup with a bottom and a side wall, into which a laminated core is built, in the grooves of which short-circuited rods of the rotor winding are located, in the center of the bottom of the cup there is a thickening with a through hole in which the end of the shaft installed is fixed in bearings that are installed in the motor housing, and the impeller is fixed to the electric motor from the outer side of the side wall of the cup by means of a rim mounted on the side wall with a support flange connected to the rear flat disk of the impeller, while the curved sections of each bracket are formed by the outer and internal arcs of a circle, smoothly conjugated with a rectilinear flat section of the bracket, and the center of the arc of a circle forming the inner contour of the curved section of each bracket, and the center of the arc of a circle forming its outer contour, lie in the plane of the outlet section of the front disk of the working blade wheel, while the distance from the output edge of each impeller blade at the moment of its location opposite the input edge of the curved section of each bracket smoothly increases in the direction from the rear flat disk of the impeller to the outlet section of the front disk of the impeller. As a result, it is possible to reduce vibrations and noise level during operation of the ventilation device. 4 ill.

Description

The utility model relates to air moving devices, namely to air ventilation units that can be built into various air conditioning or air purification systems.

A ventilation device is known, containing a base plate with a suction hole made in the center of the plate, on which four profiled brackets are fixed coaxially to the suction hole with a central mounting platform to which a fan with an electric motor is attached (see published application US No. 2011/0200438, class B63H 1 /16, published on August 18, 2011).

However, wide bracket supports create a relatively large aerodynamic resistance, which leads to a decrease in the performance of the ventilation device and an increase in the noise of the ventilation device.

The closest to the utility model in terms of technical essence and the result achieved is a ventilation device containing a flat support plate with a suction hole made in the center of the plate, on which a suction pipe is fixed coaxially to the suction hole, and flat metal brackets are fixed, each of which consists of a straight a flat section associated with a curved section with a leg, which is fixed on the base plate, while the brackets are located with the formation of straight flat sections of the brackets above the base plate of the hole through which the electric motor fixed relative to the last one is inserted, on the shaft of which the working blade wheel is fixed with a front and flat rear disks, and in the specified hole there is a flat plate, on which the annular flange of the electric motor is fixed and which is provided with side walls, the latter being connected to the rectilinear flat sections of the brackets (see Fig. patent for invention RU No. 2715428, class. F24F 13/24, publ. 08/27/2019).

This device allows to reduce the degree of air disturbance during operation of the ventilation device and, as a result, to reduce the noise level during operation of the ventilation device.

However, the presence of vibration during operation leads to disturbances in the air flow and, as a result, to noise during operation of the ventilation device, which reduces the noise reduction effect of the operation of the device.

The technical problem solved by the utility model is to overcome the above disadvantages.

The technical result achieved by the utility model is to reduce the turbulence of the air flow at the outlet of the working blade wheel when flowing around the brackets and increase the rigidity of the ventilation device design due to the rigid connection of all structural elements and reduce the height of the ventilation device due to coaxial installation relative to the housing shaft, stator, rotor and impeller, which allowed to reduce vibration and noise during operation of the ventilation device while increasing the performance of the ventilation device.

The specified technical problem is solved and the technical result is achieved due to the fact that the ventilation device contains a flat support plate with a suction hole made in the center of the plate, on which the suction pipe is fixed coaxially to the suction hole, and six flat metal brackets are fixed, each of which consists of rectilinear flat section conjugated with a curved section with a leg, which is fixed on the base plate, while the brackets are located with the formation of straight flat sections of the brackets above the base plate of the hexagonal hole and in the latter there is a flat hexagonal plate, on which the electric motor is fixed and which is provided with side walls, while the latter are connected to adjacent rectilinear flat sections of the brackets, and the impeller with front and flat rear disks is fixed to the electric motor, while the flat base plate is made hexagonal, the electric motor is connected to a three-phase alternating current source and is made with a stator installed coaxially with the electric motor housing and enclosing stator with an external rotor, and the stator is made with a core assembled from thin sheet technical steel and a core winding, and the external rotor is made in the form of a cup with a bottom and a side wall, into which a laminated core is built, in the grooves of which short-circuited rods of the rotor winding are located, in the center of the bottom of the cup a thickening with a through hole is made in which the end of the shaft is fixed, installed in bearings that are installed in the electric motor housing, and the impeller is fixed to the electric motor from the outer side of the side wall of the cup by means of a rim mounted on the side wall with a support flange connected to the rear flat disk working blade wheel, wherein the curved sections of each bracket are formed by external and internal arcs - circles, smoothly conjugated with a rectilinear flat section of the bracket, and the center of the arc of a circle forming the inner contour of the curved section of each bracket, and the center of the arc of a circle forming its outer contour, lie in the plane of the outlet section of the front disc of the impeller, while the distance from the outlet edge of each blade of the impeller at the moment it is opposite the leading edge of the curved section of each bracket smoothly increases in the direction from the rear flat disk of the impeller to the outlet section of the front disc of the impeller .

In the course of the study, it was found that it is possible to reduce the noise level during the operation of the ventilation device and at the same time reduce the vibration in the first place of the curved sections of the brackets, which is due to the fact that it was possible to optimize the rate of air flow on the leading edge of the curved section of the bracket along the height of the curved section bracket. At the same time, it was possible to increase the rigidity of the structure due to the rigid connection of the structural elements of the ventilation device, the execution of the bracket with a curved section formed as described above in the form of a single arc of a circle and a decrease in the height of the ventilation device by essentially coaxial arrangement relative to the shaft of the housing elements, stator and rotor of the electric motor, as well as the working blade wheel, which also made it possible to reduce the vibration of not only the structural elements of the brackets, but also the above structural elements of the ventilation device, which also allows for a smoother air flow around the brackets with a corresponding reduction in the noise level during operation of the ventilation device and an increase in the reliability and performance of the ventilation device. devices.

Figure 1 shows a longitudinal section of the ventilation device.

Figure 2 shows view A in figure 1.

Figure 3 shows a top view of the ventilation device.

Figure 4 shows a longitudinal section of the motor.

The ventilation device contains a flat hexagonal support plate 1 with a suction hole made in the center of the plate 1, on which a suction pipe 2 is fixed coaxially to the suction hole, and six flat metal brackets 3 are fixed, each of which consists of a straight flat section 4, conjugated with a curved section 5 with leg 6, which is fixed on the base plate 1.

Brackets 3 are located with the formation of rectilinear flat sections 4 of brackets 3 above the base plate 1 of the hexagonal hole and in the latter a flat hexagonal plate 7 is installed, on which the electric motor 8 is fixed and which is provided with side walls 9.

Side walls 9 are connected to adjacent rectilinear flat sections 4 of brackets 3.

On the electric motor 8 is fixed impeller 10 with the front 11 and flat rear 12 discs.

The electric motor 8 is connected to a three-phase alternating current source and is made with a stator 14 installed coaxially with the body 13 of the electric motor 8 and an outer rotor 15 enclosing the stator 14.

The stator 14 is made with a core 16 assembled from thin sheet technical steel and a winding 17 of the core 16.

The outer rotor 15 is made in the form of a cup with a bottom 18 and a side wall 19, into which a laminated core 20 is built, in the grooves of which short-circuited rods 21 of the winding of the outer rotor 15 are located.

In the center of the bottom 18 of the cup, a thickening with a through hole is made, in which the end of the shaft 22 is fixed, installed in the bearings 23, which are installed in the housing 13 of the electric motor 8.

The impeller 10 is fixed to the electric motor 8 from the outer side of the side wall 19 of the cup by means of a rim 24 mounted on the side wall 19 with a support flange 25 connected to the flat rear disk 12 of the impeller 10.

Curvilinear sections 5 of each bracket 3 are formed by outer R1 and inner R2 arcs of a circle smoothly conjugated with a rectilinear flat section 4 of bracket 3.

The center of the arc R2 of the circle forming the inner contour of the curved section 5 of each bracket 3, and the center of the arc R1 of the circle forming its outer contour, lie in the plane of the outlet section of the front disk 11 of the impeller 10.

The distance from the trailing edge of each blade 26 of the working blade wheel 10 at the moment it is located opposite the input edge of the curved section 5 of each bracket 3 gradually increases (from L1 to L2) in the direction from the rear flat disk 12 of the working blade wheel 10 to the outlet section of the front disk 11 of the working paddle wheel 10.

The ventilation device operates as follows.

When electrical energy is supplied, the electric motor 8 rotates the impeller 10, which causes air to enter the ventilation device through the suction pipe 2. Then the air flow enters through the front disk 11 onto the blades 26 of the impeller 10 and is the last to be ejected from the ventilation device, flowing around at this curved section 5 of the brackets 3. The brackets are installed in such a way that the air flow flows into the curved section 5 of the brackets 3 along its side surface.

Thus, due to the optimal location of the trailing edges of the blades 26 of the impeller 10, formed by the above-described profile for the execution of curved sections 5 of the brackets 3, and the formation of a rigid structure of the ventilation device, it was possible to achieve the above-described technical result.

Claims (1)

Ventilation device comprising a flat support plate with a suction hole made in the center of the plate, on which a suction pipe is fixed coaxially to the suction hole, and six flat metal brackets are fixed, each of which consists of a straight flat section mated with a curved section with a leg, which fixed on the base plate, while the brackets are located with the formation of straight flat sections of the brackets above the base plate of the hexagonal hole and a flat hexagonal plate is installed in the latter, on which the electric motor is fixed and which is provided with side walls, while the latter are connected to adjacent straight flat sections of the brackets, and a working blade wheel with front and flat rear disks is fixed on the electric motor, characterized in that the flat base plate is made hexagonal, the electric motor is connected to a three-phase alternating current source and is made with a stator installed coaxially with the electric motor housing and an external rotor covering the stator, and the stator is made with assembled from thin-sheet technical steel core and core winding, and the outer rotor is made in the form of a cup with a bottom and a side wall, into which a laminated core is built, in the grooves of which short-circuited rods of the rotor winding are located, in the center of the bottom of the cup there is a thickening with a through hole in which the end is fixed a shaft mounted in bearings that are installed in the motor housing, and the impeller is fixed to the electric motor on the outer side of the side wall of the cup by means of a rim mounted on the side wall with a support flange connected to the rear flat disk of the impeller, while the curved sections of each bracket are formed by outer and inner arcs of a circle smoothly conjugated with a rectilinear flat section of the bracket, and the center of the arc of a circle forming the inner contour of the curved section of each bracket, and the center of the arc of a circle forming its outer contour, lie in the plane of the outlet section of the front disk of the working blade wheel, with In this case, the distance from the trailing edge of each impeller blade at the moment it is located opposite the leading edge of the curved section of each bracket gradually increases in the direction from the rear flat disk of the working blade wheel to the outlet section of the front disk of the working blade wheel.

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