CN211550044U - Axial flow fan - Google Patents

Abstract

The utility model discloses an axial fan, including the casing, install the mount on the casing, install driving motor on the mount and install the epaxial wind wheel of pivot at driving motor, rotate on the inside of casing and be connected with a rotary drum, the rotary drum is located between wind wheel and the casing, and the rotary drum extends to the air intake in the air outlet of casing, is provided with on the inner wall of rotary drum to be used for driving rotary drum and wind wheel syntropy pivoted follow-up blade, and follow-up blade is located between the air outlet of impeller and casing. Set up a rotary drum to through the setting of follow-up blade, make the wind that the wind wheel formed after the start-up can drive the rotary drum and rotate, so, at the wind wheel rotation in-process, the rotary drum can effectively reduce the influence that forms atmospheric pressure to the blade top position of wind wheel, makes the wind wheel reduce along its ascending atmospheric pressure change in footpath, thereby can reduce the production of whirl and vortex.

Description

Axial flow fan

Technical Field

The utility model relates to a technical field of fan, in particular to axial fan.

Background

When the impeller rotates, air axially enters the impeller from the air inlet, is pushed by blades on the impeller to increase the energy of the air, and then flows into the guide vanes. The guide vane changes the deflection airflow into axial flow, and simultaneously introduces the gas into the diffuser pipe, further converts the kinetic energy of the gas into pressure energy, and finally introduces the pressure energy into a fan of a working pipeline.

Chinese patent publication No. CN108194387A discloses an axial flow fan, which has an outer rotor motor, a fixing frame, and an impeller; the fixing frame is provided with an outer ring body; the outer rotor motor is fixedly connected to the center of the fixing frame; the impeller is fixedly connected to an outer rotor of the outer rotor motor; the impeller is rotatably arranged in the outer ring body; the impeller includes a hub; a plurality of blades are distributed on the hub along the circumference of the rotation axis; a through hole for an outer rotor of the outer rotor motor to pass through is formed in the center of the hub, and fixing holes are distributed on the hub around the circumference of the through hole; an annular flange connecting plate is arranged on the circumferential surface of the outer rotor motor; the hub is sleeved outside the outer rotor of the outer rotor motor and fixedly connected with the annular flange connecting disc through a connecting bolt penetrating through the fixing hole.

The axial flow fan inevitably generates noise during use, and it is known that aerodynamic noise of the axial flow fan can be divided into discrete noise and broadband noise according to formation reasons and different frequency distributions. The generation mechanism of the discrete noise is a pressure pulsation caused by the periodic action of the rotating blades and the surrounding gas, and the noise is radiated. Broadband noise is a noise having acoustic energy at a range of frequencies, and is also called eddy noise because it is closely related to eddy currents in a flow process. The two noises are inevitably generated in the working process of the fan, and the axial flow fan does not have a corresponding noise reduction design, so that the axial flow fan with the structure has larger use noise.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an axial fan, have the advantage that the use noise is low not enough to prior art exists.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the utility model provides an axial fan, includes the casing, installs the mount on the casing, installs driving motor on the mount and installs the epaxial wind wheel of pivot at driving motor, it is connected with a rotary drum to rotate on the inside of casing, the rotary drum is located between wind wheel and the casing, just the rotary drum extends to the air intake in the air outlet of casing, be provided with on the inner wall of rotary drum and be used for driving rotary drum and wind wheel syntropy pivoted follow-up blade, follow-up blade is located between the air outlet of impeller and casing.

The rotating drum is arranged, and wind formed by the wind wheel after the wind wheel is started can drive the rotating drum to rotate through the arrangement of the follow-up blades, so that the rotating drum can effectively reduce the influence of air pressure formed at the blade top position of the wind wheel in the rotating process of the wind wheel, the change of the air pressure of the wind wheel in the radial direction is reduced, and the generation of rotational flow and turbulent flow can be reduced; in addition, during the air supply. In addition, because the rotary drum rotates with the wind, the rotary drum can be slightly adjusted when the air pressure changes, so that the change amplitude of the air pressure is restrained, and the noise generated by the air pressure change is reduced.

More preferably: the follow-up blades are arranged spirally.

So set up, make the rotary drum more easily driven.

More preferably: the follow-up blades are at least four and are distributed around the axial lead of the rotating drum at equal intervals.

So set up, make the rotary drum more easily driven.

More preferably: two connecting bearings are arranged between the outer wall of the rotary drum and the inner wall of the shell, and the two connecting bearings are respectively positioned at two ends of the rotary drum.

So set up, realize the support to the rotary drum, make its rotation that can be very steady to avoid producing great noise.

More preferably: the casing includes straight section of thick bamboo portion and the section of thick bamboo portion that expands of fixed connection, the mount is installed at straight section of thick bamboo portion opening part, the shape of rotary drum is the same with the casing.

So set up, make the air outlet be the flaring setting, can the production of noise reduction.

More preferably: the end of the rotary drum, which is positioned at the air inlet, is provided with a silencing section, and a silencing hole penetrating through the rotary drum is distributed on the silencing section.

So set up, reduce the air-out noise through set up the bloop on the bloop of rotary drum.

More preferably: the mount includes the solid fixed ring of being connected with the casing and is used for installing driving motor's linking arm, the linking arm sets up to the slope of the casing other end along casing axial lead direction.

So set up, at first can make driving motor be located the rotary drum, make it be located the amortization section, eliminate the mutual interference between rotary drum and the mount.

More preferably: the inner side wall of the shell body at the position of the sound attenuation section is provided with a sound attenuation cavity, and a rubber vibration membrane is arranged at the cavity opening of the sound attenuation cavity.

According to the arrangement, the silencing cavity and the rubber vibration film are arranged on the basis of the silencing hole, and when the air pressure fluctuates, the rubber vibration film can respond to the fluctuation to compensate, so that the air pressure is more stable; meanwhile, the vibration of the gluing vibration film can be used for offsetting partial noise generated in the process, so that a better noise reduction effect is achieved.

More preferably: the air outlet place end of casing is provided with inhales the sound structure, inhale the sound structure including setting up the sound absorbing cavity on the casing lateral wall, seal the otter board of sound absorbing cavity accent and fill the porous sound absorbing material in the sound absorbing cavity.

So set up, mainly absorb the produced noise of rotation between rotary drum and casing, simultaneously, also can absorb the wind noise that produces in the casing.

To sum up, the utility model discloses following beneficial effect has: through setting up such as rotary drum, amortization chamber and sound absorbing structure for the noise is lower in the use.

Drawings

FIG. 1 is a schematic structural view of the present embodiment;

fig. 2 is a front sectional view of the present embodiment.

In the figure, 100, the housing; 110. a tube expanding part; 120. a straight tube portion; 130. a sound-deadening chamber; 140. a rubber diaphragm; 200. a fixed mount; 210. a fixing ring; 220. a connecting arm; 300. a drive motor; 400. a wind wheel; 500. a rotating drum; 510. a follower blade; 600. a bearing; 700. a sound absorbing structure; 710. a sound absorbing chamber; 720. a screen plate; 730. a porous sound absorbing material; 800. a sound attenuation section; 810. a silencing hole.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

An axial flow fan, as shown in fig. 1, comprises a housing 100, a fixed mount 200, a driving motor 300, a wind wheel 400 and a rotary drum 500, wherein the housing 100 is in a cylindrical structure and is divided into a straight cylinder part 120 and an expanded cylinder part 110 along the axial direction, the straight cylinder part 120 and the expanded cylinder part 110 are integrally arranged, wherein, the opening at one end with the larger diameter of the expanded cylinder part 110 is used as an air outlet, and the opening of the straight cylinder part 120 is used as an air inlet.

The fixing bracket 200 includes a fixing ring 210 and a connecting arm 220, and the fixing ring 210 is fixedly installed at the air inlet of the straight cylinder part 120 by a bolt. The connecting arms 220 are provided in four. Referring to fig. 2, one end of the connecting arm 220 is fixedly connected to the inner wall of the fixing ring 210, and the other end thereof is inclined toward the air outlet along the axial direction and connected to the driving motor 300.

Referring to fig. 1, wind turbine 400 includes six blades, but is not limited to six, and may be provided in any number greater than one, such as three, four, etc.

Referring to fig. 1 and 2, the tips of the blades on the wind wheel 400 are fixedly connected to the inner wall of the rotating drum 500, the structure and shape of the rotating drum 500 are the same as those of the casing 100, and the rotating drum 500 is coaxially disposed with the casing 100, one end of the rotating drum 500 is flush with the air outlet of the casing 100, and the other end of the rotating drum 500 extends to be close to the fixing frame 200 along the axial direction toward the air inlet.

A bearing 600 is disposed on the outer wall of each of the two ends of the drum 500, and the outer wall of the bearing 600 is connected to the inner wall of the casing, so as to ensure that the drum 500 stably rotates in the casing 100. Four follow-up blades 510 are arranged on the inner wall of the flaring section of the rotating drum 500, the four follow-up blades 510 are spirally arranged around the axial lead of the rotating drum 500, the helical degree is less than 0 and 5 circles, and the four follow-up blades 510 are distributed at equal intervals around the axial lead of the rotating drum 500.

As shown in fig. 1 and 2, a sound absorbing structure 700 is provided on an inner wall of the enlarged cylinder portion 110, the sound absorbing structure 700 includes a sound absorbing cavity 710, a mesh plate 720, and a porous sound absorbing material 730, the sound absorbing cavity 710 is annularly provided on the enlarged cylinder portion 110, the mesh plate 720 is provided to cover an opening of the enlarged cylinder portion 110 to close the opening of the enlarged cylinder portion 110, a plurality of meshes are uniformly distributed on the mesh plate 720, the porous sound absorbing material 730 is one of sound absorbing materials such as sound absorbing cotton, mineral wool, urethane foam, and the like, and the porous sound absorbing material 730 is filled in the sound absorbing cavity 710.

The end of the rotating drum 500 at the air inlet is provided with a silencing section 800, the silencing section 800 is located on the straight drum section of the rotating drum 500, and the position of the blade of the wind wheel 400 is fixedly connected with the position of the silencing section 800.

The straight tube part 120 of the housing is provided with a sound deadening chamber 130, the sound deadening chamber 130 is provided opposite to the sound deadening section 800, and a rubber diaphragm 140 is attached to an opening of the sound deadening chamber 130.

The working principle is as follows:

after the driving motor 300 is started, the wind wheel 400 is driven to rotate, the wind wheel 400 rotates to suck air and then send the air out of the air outlet, and in the air supply process, the wind acts on the follow-up blades 510 to drive the rotating drum 500 to rotate in the same direction as the wind wheel 400.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (9)

1. The utility model provides an axial fan, includes casing (100), installs mount (200) on casing (100), installs driving motor (300) on mount (200) and installs wind wheel (400) in driving motor's (300) pivot, characterized by: the wind wheel type wind power generation device is characterized in that a rotating drum (500) is connected to the inside of the shell (100) in a rotating mode, the rotating drum (500) is located between the wind wheel (400) and the shell (100), the rotating drum (500) extends to the air inlet from the air outlet of the shell (100), a follow-up blade (510) used for driving the rotating drum (500) and the wind wheel (400) to rotate in the same direction is arranged on the inner wall of the rotating drum (500), and the follow-up blade (510) is located between the impeller and the air outlet of the shell (100).

2. The axial flow fan of claim 1, further comprising: the follow-up blades (510) are arranged spirally.

3. The axial flow fan of claim 2, wherein: the follow-up blades (510) are at least four and are distributed around the axial lead of the rotary drum (500) at equal intervals.

4. The axial flow fan according to claim 3, wherein: two connecting bearings (600) are arranged between the outer wall of the rotary drum (500) and the inner wall of the shell (100), and the two connecting bearings (600) are respectively positioned at two ends of the rotary drum (500).

5. The axial flow fan according to claim 4, wherein: the casing (100) comprises a straight cylinder part (120) and a cylinder expanding part (110) which are fixedly connected, the fixed frame (200) is installed at the opening of the straight cylinder part (120), and the shape of the rotary cylinder (500) is the same as that of the casing (100).

6. The axial flow fan according to claim 1, wherein: the end, located at the air inlet, of the rotary drum (500) is provided with a silencing section (800), and silencing holes (810) penetrating through the rotary drum (500) are distributed in the silencing section (800).

7. The axial flow fan according to claim 6, wherein: the fixing frame (200) comprises a fixing ring (210) connected with the shell (100) and a connecting arm (220) used for installing the driving motor (300), and the connecting arm (220) is obliquely arranged towards the other end of the shell (100) along the axial lead direction of the shell (100).

8. The axial flow fan according to claim 6, wherein: the inner side wall of the shell (100) opposite to the sound attenuation section (800) is provided with a sound attenuation cavity (130), and a rubber vibration film (140) is arranged at the cavity opening of the sound attenuation cavity (130).

9. The axial flow fan according to claim 1, wherein: the air outlet place end of casing (100) is provided with inhales sound structure (700), inhale sound structure (700) including set up sound-absorbing cavity (710) on casing (100) lateral wall, seal otter board (720) of sound-absorbing cavity (710) accent and fill porous sound-absorbing material (730) in sound-absorbing cavity (710).

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