KR19980059326U - Serial Axial Flow Blower - Google Patents

Abstract

The present invention relates to a series axial flow blower, and aims to provide a series axial flow blower that can increase the static pressure of the blower while not only having a low installation cost but also taking up a lot of installation place and having low power consumption.

A series axial flow blower according to the present invention, the guide pipe (1); A motor (2) installed inside the light pipe; A plurality of vanes (3) radially installed on the outer circumferential surface of the motor and supporting the motor by being connected to an end of the wind pipe; And, it comprises a main impeller 4 and the pressure impeller (5) which are in turn condensed on both ends of the motor shaft. According to the present invention, the rear end portion of the waveguide 1 extends to the rear side, and the inner circumferential surface of the extension portion 11 is further provided with a conical guide 6 having a rear end conical shape, the conical guide radially on the outer circumferential surface thereof. It may be installed to be supported by a plurality of vanes (7) connected to the inner circumferential surface of the waveguide. Therefore, the flow gas coming in the axial direction of the chiefeller 4 is accelerated while passing through the blade row 41 of the chiefeller 4 to obtain a rise in pressure, and then rectified while passing through the stator 3, and then pressurized impeller 5 After passing through the blade row 51 of) and accelerated again through the vane 7 and rectified, and then blown through the conical guide (6), the static pressure is further increased. Therefore, the static pressure rise efficiency is increased and the power consumption required to drive the motor 2 is reduced than when two blowers are used.

Description

Serial Axial Flow Blower

The present invention relates to a series axial flow blower, and more particularly, to a series axial flow blower that can increase the blow static pressure even with a small power by installing impellers on both sides of one motor.

In general, the axial blower is a low pressure blower, which is suitable when a large amount of air is required. However, in recent years, a high efficiency is proposed even at a high pressure, and the range of application thereof is gradually expanded. In addition, the axial blower also has the disadvantage that the noise is higher than that of the centrifugal blower and the efficiency suddenly drops at the air flow other than the design point.

Such an axial blower can be classified into a propeller blower having the simplest structure without a guiding pipe, a axial blower with a guiding pipe, and a axial blower with a stator blade according to the presence or structure of the guiding pipe surrounding the impeller.

An axial flow blower with a guiding pipe typically includes a guiding pipe having both ends connected to a duct; A motor installed inside the guiding pipe; A plurality of vanes installed around the outer circumferential surface of the motor casing and fixed to the inner circumferential surface of the waveguide to support the motor; And, it comprises an impeller that is fixed to one end of the shaft of the motor. The axial flow blower with such a waveguide remains the partial velocity of the wind in the rotational direction of the rear of the impeller, the flow in the rotational direction by the vane is recovered at a constant pressure, the efficiency is increased. That is, the flow gas entering the axial direction of the impeller from the suction port is accelerated by the suction force of the impeller rotating as the motor is driven to obtain a pressure increase, and the flow gas passing through the blade passes through the vane. While the velocity energy is efficiently converted into pressure energy to obtain a static pressure rise, it flows out through the tuyere. In addition, the vane is usually located behind the rotor blades of the impeller, but may be installed in front of the rotor blades.

In particular, the axial blower needs to have a high static pressure. In this case, the blower air volume is related to the axial horsepower of the motor, whereas the blower static pressure of the blower is related to the diameter of the impeller. . However, when the blower becomes large, installation problems such as installation place difficulty or installation cost arise, and power consumption increases because a large motor must be used. Thus, two axial blowers 91 and 92 are shown in FIG. Is installed in series on the same axis to increase the static pressure.

However, even when two blowers are used, the installation cost is high, and there is a problem that the power consumption is high along with the problem of the installation place.

The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a series axial flow blower which can increase the static air blow pressure while not only taking up a lot of installation cost, but also taking up a lot of installation place and having low power consumption. .

1 is a cross-sectional view showing a series axial flow blower according to a first embodiment of the present invention.

2 is a cross-sectional view showing a series axial flow blower according to a second embodiment of the present invention.

3 is a configuration diagram showing an example of a conventional axial flow blower.

Explanation of symbols for the main parts of the drawings

1: guide tube 2: motor

3: stator blade 4: chiefeller

5: pressure impeller 6: conical guide

7: stator 11: extension part

21: casing of the motor 22: motor shaft

41, 51: blade row

In order to achieve the above object, the series axial flow blower of the present invention, the guide pipe; A motor installed inside the wind pipe; A plurality of vanes radially installed on an outer circumferential surface of the motor casing, the ends being connected to a waveguide to support the motor; It is installed in both ends of the shaft of the motor in turn characterized in that it comprises a chiefeller and a pressure impeller to rotate in accordance with the drive of the motor.

According to the present invention, a rear end portion of the waveguide extends to the rear side, and a conical guide having a rear end portion is formed in a conical shape on the inner circumferential surface of the extension portion, and the conical guide is radially installed on the outer circumferential surface thereof and connected to the inner circumferential surface of the waveguide. It can be supported by multiple vanes.

According to the series axial flow blower of the present invention configured as described above, when the motor shaft is rotated by the driving of the motor, the flow gas that enters the axial direction of the impeller from the suction port by the suction force of the impeller is accelerated while passing through the blade of the impeller As a result, a pressure rise is obtained, and the flow gas passing through the casing is rectified while passing through the vane, and then accelerated again through the casing of the pressurized impeller, rectified by passing through the vane again, and then blown through the conical guide (6). Since the process of gaining up is performed in two stages, the static pressure increase efficiency is increased, while the power consumption required to drive the motor is reduced compared to using two blowers.

Other features and advantages of the present invention will become more apparent from the following detailed description of the preferred embodiments based on the accompanying drawings.

Example 1

The serial axial flow blower according to the first embodiment of the present invention will be described with reference to FIG. 1.

As shown, reference numeral 1 is a guiding pipe 1, and both ends thereof are connected to a duct (not shown), thereby serving to guide the blowing air.

The motor 2 is installed in the inner center of the wave guide 1. The motor 2 may be radially projected on the outer circumferential surface of the casing 21, and may be supported by a plurality of vanes 3 whose ends are connected to the inner circumferential surface of the waveguide 1.

Then, both ends of the shaft of the motor 2 protrude forward and backward, and a chiefeller 4 having a plurality of blades 41 radially mounted on the front end of the shaft of the motor 2 is condensed, and the rear end of the shaft of the motor 2 is also fixed. At least one pressurized impeller 5 having a plurality of radially installed cascades 51 is condensed (where one pressurized impeller 5 is condensed). Therefore, when the motor 2 is driven, the main impeller 4 and the pressure impeller 5 can be rotated according to the rotation of the shaft of the motor 2.

According to the series axial flow blower of the first embodiment configured as described above, when the shaft of the motor 2 is rotated by the driving of the motor 2, the suction of the chiefeller 4 at the suction port is caused by the suction force of the chimeeller 4. The gas entering in the axial direction is accelerated while passing through the blade row 41 of the chimney pellets 4 to obtain a pressure increase. In addition, the flow gas passing through the blade row 41 of the chiefeller 4 is rectified while passing through the stator blade 3, and then is accelerated again while passing through the blade row 51 of the pressure impeller 5 to obtain a high static pressure and is blown. . Therefore, since the static pressure rises in two stages, the static pressure rise efficiency is increased and the power consumption required to drive the motor 2 is reduced than when using two blowers.

Example 2

A series axial flow blower according to a second embodiment of the present invention will be described with reference to FIG. 2.

In the series axial flow blower according to the second embodiment, in the above-described first embodiment, the rear end portion of the wave guide tube 1 further extends to the rear side, and the rear end portion thereof does not receive air resistance on the inner circumferential surface of the extension portion 11. A conical guide 6 formed in a conical shape is further provided, except that the conical guide 6 is radially installed on its outer circumferential surface and supported by a plurality of vanes 7 connected to the inner circumferential surface of the guiding pipe 1. Since the rest of the configuration and operation is the same as in the first embodiment, the same parts as in the first embodiment are denoted by the same reference numerals and detailed description thereof will be omitted.

As described above, when the vane 7 and the conical guide 6 are installed, the flow gas having the elevated static pressure while passing through the chiefeller 4, the stator 3 and the pressure impeller 5 is a stator 7 As it flows through the conical guide 6 and passes through the outlet of the duct 1, the flow gas can be blown at a higher static pressure, thereby increasing the static pressure rise efficiency.

In the series axial flow blower according to the present invention configured as described above, the chiefeller 4 and the pressurized impeller 5 are fixed to one motor 2 so that the static pressure of the flow gas can be increased and blown. Since the motor does not need to be used, the axial blower can be miniaturized, thereby reducing the installation space of the axial blower and of course reducing the installation cost.

In addition, the use of one motor can significantly reduce the power consumption than using two motors, thereby reducing the operating cost of the axial blower.

Claims (3)

A wind pipe 1; A motor (2) installed inside the light pipe; A plurality of vanes (3) radially installed on an outer circumferential surface of the casing (21) of the motor and supporting the motor by connecting an end thereof to a wind pipe; And, And a main impeller (4) and at least one pressurized impeller (5), which are sequentially installed at both ends of the shaft of the motor and rotate in accordance with the driving of the motor. The rear end portion of the waveguide 1 extends to the rear side, and a conical guide 6 having a rear end portion in a conical shape is further provided on the inner circumferential surface of the extension portion 11, and the guide is formed on the outer circumferential surface thereof. A series axial flow blower, which is radially installed and supported by a plurality of vanes (7) connected to the inner circumferential surface of the guiding pipe. 2. The series axial flow blower according to claim 1, wherein both ends of the light pipe (1) are connected to a duct.