KR20120136537A - Fan assembly - Google Patents

Abstract

PURPOSE: A fan assembly is provided to damp vibration down and to minimize noise caused by the generation of the vibration. CONSTITUTION: A fan assembly comprises a fan(100), a motor(200), a supporting cover(300), and a damping unit(400). The fan comprises a plurality of blades. The motor rotates the fan. The supporting cover comprises a mounting unit. The motor is installed in the mounting unit. The damping unit is joined to the motor and installed in the mounting unit and reduces vibration.

Description

Fan assembly

The present invention relates to a fan assembly capable of damping vibration generated in the motor to minimize unnecessary noise and stably supporting the weight of the motor coupled to the fan.

In general, a fan or a fan is installed on the roof of a building that requires temperature control and is mainly used to adjust the internal temperature or to maintain a comfortable environment in a building such as a factory or a barn. For example, a fan installed for ventilation in a livestock house has been manufactured and used in various forms to date, and is generally installed on the ceiling of a livestock house to force air convection in the livestock house to promote air circulation.

A conventional general fan assembly will be described with reference to the drawings.

Referring to FIG. 1, the fan assembly 2 includes a fan 40 having a predetermined size, and is provided with a motor 10 that provides rotational force to rotate the fan 40. It includes a plurality of motor support 30 having a bar shape for fixing the 10 and the support cover 20 to which the motor support 30 is fixed.

The motor support 30 has one end fixed at a corner of the support cover 20 having a center opening and a rectangular shape, and the other end extending to the rear of the support cover 20 and fixed to an outer circumferential surface of the motor 10. Connected to the side. The motor support 30 is fixed while being coupled to the support cover 20 and the fixing piece via the bolt (3) provided separately. The fan assembly 2 further includes a ring-shaped rear cover 50 provided at the rear of the support cover 20 and having different diameters.

In the conventional fan assembly 2 made as described above, the vibration generated while the motor 10 is operated is transmitted to the support cover 20 through the motor support 30 as it is, and the support cover 20 is the motor 10. A trembling phenomenon is caused by the vibration generated in. In addition, after the assembly of the motor support 30 is completed, the loads of the fan 40 and the motor 10 are transferred as they are, so as to sag in one direction or partially deformed, and the installation state of the fan assembly 2 Therefore, the motor 10 is not positioned in the state shown in the drawing, causing a problem that the vibration generated in the motor 10 is further increased.

In the conventional fan assembly 2 used as described above, when the vibration noise generated from the motor 10 is left as it is for a long time, the durability of the fan assembly 2 may be deteriorated, and a failure or malfunction may occur. In (2), the problem of generating unnecessary noise was caused. Therefore, the user increases the economic cost of replacing with a new fan assembly which does not generate vibration noise, and thus, a countermeasure is required.

Embodiments of the present invention seek to minimize the overall vibration and noise generated in the fan assembly through damping of vibration generated when the motor is operating.

Embodiments of the present invention to provide a fan assembly that can stably support the weight of the fan and the motor.

According to an aspect of the invention, the fan is provided with a plurality of wings; A motor for rotating the fan; A support cover provided at a center of the mounting portion in which the motor is installed; And a damping unit coupled to the motor and installed in a mounting unit to reduce vibration.

The support cover may include a cover housing disposed at the rear of the fan to form an edge having a predetermined size and having coupling holes at each corner thereof; And a support rib formed integrally with the cover housing and extending radially toward the mounting portion.

The support ribs are bent from the front to the rear of the support cover.

The support ribs may include: first support ribs spaced at equal intervals from a mounting part; And a second support rib disposed between the first support ribs.

The first support rib and the second support rib have different widths.

The damping unit includes a damping member disposed along an outer circumferential surface of the motor; And a connection member provided to connect the damping members to each other and having a hole opened to a predetermined size.

As the damping member, either a coil spring or a leaf spring is selectively used.

As the damping member, a coil spring or a leaf spring made of different spring constants is used.

The motor further includes a fixing piece disposed spaced at regular intervals along the outer circumferential surface and configured to fix the damping portion.

The motor is characterized in that any one hole provided in the connecting member and the fixing piece are fixed through the bolt, and the other hole provided in the connecting member is fixed through the mounting portion and the bolt.

Embodiments of the present invention can be damped to the vibration generated in the fan assembly, it is possible to minimize the generation of noise caused by the vibration.

Embodiments of the present invention can minimize the occurrence of vibration generated in the fan assembly to improve the durability of the fan and the motor, it is possible to prevent the deformation of the support cover due to the weight of the motor and the fan.

1 is an exploded perspective view showing the configuration of a conventional general fan assembly.
Figure 2 is an exploded perspective view showing the configuration of the fan assembly according to an embodiment of the present invention.
Figure 3 is a front view showing a support cover provided in the fan assembly according to an embodiment of the present invention.
4 to 7 are perspective views showing various embodiments of the damping unit provided in the fan assembly according to an embodiment of the present invention.
8 is a view showing a combined state of the motor, the damping unit and the support cover according to an embodiment of the present invention.
9 is a view showing a coupled state of the fan assembly according to an embodiment of the present invention.
10 is a view showing a state in which the fan assembly according to an embodiment of the present invention is installed.
11 is an operational state diagram of the fan assembly according to an embodiment of the present invention.

A configuration of a fan assembly according to an embodiment of the present invention will be described with reference to the drawings.

Referring to FIG. 2, a fan assembly 1 according to an embodiment of the present invention is provided with a fan 100 having a plurality of wings 102 and coupled to the fan 100 to perform rotational driving. 200 is provided. In addition, the motor 200 is installed and includes a support cover 300 made of a rectangular shape, and a damping unit 400 for reducing the vibration generated in the motor 200.

The fan 100 has a predetermined size and is arranged so that the plurality of wings 102 are spaced apart at equal intervals, to secure the wing 102 in the center and to insert the motor shaft provided in the motor 200. A fan hub 104 provided with a ball 104a. The wing 102 is not limited to the shape shown in the drawings may be changed to another shape that can improve the blowing.

The support cover 300 is disposed at the rear of the fan 100 and is provided with a cover housing 310 having a predetermined size and forming an edge. The support cover 300 is integrally formed with the cover housing 310 and has a support rib 320 at the center thereof. ) Is provided. The cover housing 310 may be formed in any one of a square or a circle shape and may be manufactured in another shape. The cover housing 310 is provided with a plurality of coupling holes 312 in each corner, the coupling hole 312 is used for the coupling of the hook or wire provided separately when the fan assembly 1 is installed do. The cover housing 310 and the support ribs 320 may be made of a metal or a non-metallic material, and any one of aluminum, tinned steel, or galvanized steel may be selectively used to reduce weight. The cover housing 310 may have an overall size changed in proportion to the size of the fan 100, and a separate front cover (not shown) may be provided on the front of the fan 100.

A support rib according to an embodiment of the present invention will be described in more detail with reference to the drawings.

2 to 3, the support rib 320 is provided with a mounting part 302 in which the motor 200 is seated and fixed at the center thereof, and the support cover 300 is radially formed from the mounting part 302. It protrudes toward the rear and is made of mesh for smooth inflow of air.

The support rib 300 is provided with a first support rib 322 and a second support rib 324 extending radially about the mounting portion 302, and between the first and second support ribs 322 and 324. It includes a connecting rib 326 for connecting to each other.

Referring to the enlarged view, the first and second support ribs 322 and 324 and the connecting rib 326 have a cross-sectional structure having both ends bent toward the fan 100 disposed in front and a flat surface toward the motor 200. Is done.

The reason why such a cross section is formed is to prevent deformation caused by the load of the fan 100 and the motor 200 that are locally applied to the support rib 300, and the support cover 300 while the fan 100 is rotated. In order to prevent the dust contained in the blowing air moving forward from the rear of the) to the support rib 300 to the maximum.

The support cover 300 may vary in thickness in order to achieve stable support according to the size of the fan 100 and the motor 200, and in consideration of the weight of the fan 100 and the motor 200 from the pre-production stage Can be estimated.

The first support ribs 322 are spaced apart at equal intervals along the circumferential direction of the support cover 300, and the second support ribs 324 are disposed between the spaced apart first support ribs 322 and the connection ribs ( 326 draws concentric circles around the mounting portion 302, and a plurality of them have different diameters at predetermined intervals and are spaced apart and have a predetermined width.

The first support ribs 322 and the second support ribs 324 may have different cross-sectional widths, and the widths of the first support ribs 322 or the second support ribs 324 may be relatively wide. It is not limited to any particular support rib. The connecting rib 326 distributes the load applied to the first and second support ribs 322 and 324 to the entire support cover 300 to prevent the load of the fan 100 and the motor 200 from being concentrated in a specific region. .

The support cover 300 is provided with a mounting portion 302 having a predetermined size and having a ring shape in the center, and the mounting portion 302 includes mounting holes 302a spaced at equal intervals along the circumferential direction. .

The motor 200 is provided on the outer circumferential surface spaced at regular intervals and provided with a fixing piece 202 to which the damping part 400 is installed, and the fixing piece 202 has a fixing hole 202a into which a bolt is inserted. The fixing piece 202 is spaced apart at equal intervals on the outer circumferential surface of the motor 200 and made of a number corresponding to the number of mounting holes 302 provided in the mounting unit 302.

A damping unit according to an embodiment of the present invention will be described with reference to the drawings.

2 or 4, the damping unit 400 minimizes the vibration generated from the motor 200 and prevents the vibration of the motor 200 from being transmitted to the support cover 300 described above. Is provided for.

Prior to the description of the damping unit 400 of the present invention, various vibration states generated in the motor 200 will be described first.

First, while the motor 200 is maintained in an off state and operated in an on state, starting vibration is generated according to rotation of a rotor (not shown) provided therein. The starting vibration may cause vibration of the entire fan assembly 1 through the support cover 300 while rapidly increasing the vibration of the motor 200 in a short time.

Second, as the motor 200 is normally operated, the natural vibration of the motor 200 is generated by the rotation of the rotor, and the natural vibration of the motor is rotated to a specific rpm for the rotation of the fan 100. Occurs while rotating. As the motor 200 rotates at a high speed in a specific rpm, the motor 200 may inevitably generate vibration, and a degree of vibration may vary according to the rotational speed of the fan 100.

The third is the mechanical vibration of the rotor (not shown) provided in the motor 200, the rotor is not rotated in a state located in the center of the motor 200 is generated while the rotation is made eccentrically to one side Says vibration. The mechanical vibration of the rotor can be minimized by the guide ring (not shown) provided in the motor 200, but this is also essentially generated according to the rotation of the rotor as in the natural vibration of the motor described above.

Damping unit 400 according to an embodiment of the present invention is provided with a damping member 410 in order to prevent the damping of the various vibrations generated in the motor 200 and the vibration transmission to the support cover 300. . The damping member 410 may be selectively used any one of the coil spring or the leaf spring. The damping unit 400 has a ring shape and includes a connecting member 420 connecting the damping members 410 to each other. Since the damping part 400 has a cylindrical shape, the damping part 400 also has a ring shape as a whole, but is not necessarily limited to the shape.

The damping members 410 may all be made of the same spring constant, or may be made of different spring constants, and thus, the damping members 410 may attenuate vibrations more efficiently according to vibration conditions generated by the motor 200. For example, the damping member having a small spring constant effectively attenuates a small vibration generated in the motor 200, and the damping member having a large spring constant attenuates a relatively large vibration generated when the motor 200 is operated for initial rotation. You can.

Various embodiments of the damping portion of the present invention will be described with reference to the drawings.

Referring to FIG. 4, the damping part 400 may be integrally formed by the damping member 410 and the connection member 420 without being individually configured, and may be integrally formed by a press machine or a punching machine (not shown). have. The damping members 410 are preferably all made of the same spring constant in order to stably damp the vibration generated by the motor 200, but in some cases it may be made of different spring constants.

For example, when the damping members 410 are all made of the same spring constant, fabrication is performed using a material having a uniform thickness, and when the damping members 410 are made of different spring constants, the fabrication is performed by changing the configuration of the damping members 410. Conduct. To this end, the damping member 410 may be adjusted to a desired spring constant by changing the size or changing the number of slot holes 410a perforated in the longitudinal direction.

The damping member 410 is formed such that the outer circumferential surface is rounded, and the slot holes 410a are formed to be spaced apart at equal intervals and are integrally provided with the connecting member 420. Damping unit 400 according to the present embodiment has a feature that can be produced in the form shown in the drawing using a press or punching machine. The connection member 420 connects the plurality of divided damping members 410 to each other and is provided with a through hole 422 opened to be fixed to the motor 200.

Referring to FIG. 5, the damping unit 400a according to the present embodiment includes a damping member 410 and a connecting member 420, and the damping member 410 is used by a leaf spring having a predetermined length. It is bent a number of times in a zigzag form and integrally formed with the connecting member 420 and bent with a predetermined thickness and curvature. The damping members 410 may all be manufactured in the same length, but may be made of different lengths in consideration of the vibration characteristics of the motor 200, and the number of bendings may be changed. The connection member 420 is provided between the damping members 410, and a hole 422 is provided for fixing to the fixing piece 202 provided in the motor 200.

In order to manufacture the damping unit 400a according to the present embodiment, pressing is performed in a ring shape in which the damping member 410 and the connecting member 420 are integrally formed on an iron plate having a predetermined thickness, and the connecting member 420 is formed. The hole 422 is formed at the position of the damping member 410 after bending the damping member 410 a plurality of times in the state shown in the drawing, and the damping member 110 is positioned at a 90 ° angle with the connecting member 420 positioned in the plane. Bending of the damping member 410 is performed in the state shown in the drawing. The damping member 410 may have an elastic force that varies according to the number of bending of the leaf spring and the bending interval, and is not particularly limited to the number and interval of bending.

Referring to FIG. 6, the damping unit 400b according to the present embodiment includes a damping member 410 and a connecting member 420, and in this embodiment, the damping member 410 uses a coil spring. Explain. The damping member 410 is connected to both ends of the connecting member 420, the plurality of damping members 410 are connected to each other by the connecting member 420 can be maintained in accordance with the diameter of the motor 200 The number is changed and installed. Typically, since the motor 200 is formed in a cylindrical shape, the damping part 400b may be formed in a ring shape as a whole, but is not necessarily limited to the shape.

The coil spring used as the damping member 410 may be used in a state in which the diameter and the number of windings are shown in the drawings, but are not particularly limited. The coil spring has both ends extending outward toward the connecting member 420 by a predetermined length and the end is provided with a ring rounded in a semicircular shape, and the center portion is formed in a coil wound a plurality of times to generate vibration. We plan damping accordingly. The damping members 410 may all be made of the same spring constant, or may be made of different spring constants.

The damping member 410 is not manufactured by the pressing method, but a plurality of damping members 410 and the connecting member 420 are manufactured separately. The connection member 420 has a hole 422 is formed in the center, the connection hole is provided in each of the left and right sides of the hole 422, the ring of the coil spring is inserted into the connection hole.

Referring to FIG. 7, the damping part 400c includes a damping member 410 and a connecting member 420 having a predetermined length and are integrally formed. The damping member 410 according to the present embodiment uses a leaf spring. It explains by doing. The damping member 410 has a connecting member 420 integrally formed at the front end and the rear end, respectively, and is made to be bent a plurality of times in a rounded shape along the longitudinal direction. A plurality of unit damping units formed as described above are assembled and installed in a number corresponding to the diameter of the motor 200, and the connection member 420 is provided with a through hole 422 to be installed on the fixing piece 202, and is provided in the through hole 422. The bolt may be assembled and fixed to the motor 200.

The damping unit 400c according to the present embodiment manufactures a unit damping member by using a first press, performs a process for the through hole 422 according to the position of the connecting member 420, and manufactures a plurality of through holes ( It is good to combine with each other according to the position of 422).

The assembly and installation state of the fan assembly according to an embodiment of the present invention configured as described above will be described with reference to the drawings. For reference, the damping unit may be selectively installed using any one of a coil spring or a leaf spring. In this embodiment, a coil spring is used for convenience of description and the number of holes opened in the damping unit is described as eight. It does not necessarily limit to the said number.

8 to 9, the operator inserts the damping part 400 into the outer circumferential surface of the motor 200 and moves the hole 422 formed in the connecting member 420 in a state of moving the damping part 400 to the position of the fixing piece 202. ) And the bolt 10 is fixed by coupling the position of the fixing hole 202a formed in the fixing piece 202 with each other. At this time, the bolt 10 is not coupled to all eight holes 422 formed in the damping unit 400, and the bolts 10 are coupled only to four holes 422 corresponding to the fixing piece 202, and the remaining four The hole 422 corresponds to the mounting hole 302a provided in the mounting unit 302 and is fixed to the support rib 300 through a bolt provided separately. As such, when the motor 200 and the damping part 400 and the damping part 400 and the support rib 300 are maintained in a coupled state, the vibration generated by the motor 200 is directly transmitted to the support rib 300. Before being transmitted to the support rib 300 in a damped state preferentially through the damping unit 400, it is possible to significantly reduce the generation of vibration.

Referring to FIG. 9, the fan assembly 1 assembled as described above may be installed at a barn, for example, and one end of the chain or wire W may be supported to install the fan assembly 1. Inserted into the coupling hole 312 provided at the edge of the fixing is performed, the other end is connected to the frame provided on the ceiling. The fan assembly 1 may be installed to be inclined toward the ground, and by adjusting the length of the chain or wire, the installation angle may be adjusted so that air is blown to a desired position. The fan assembly 1 according to the present embodiment may be installed in parallel to the ceiling of the house, and description thereof will be omitted.

The operating state of the fan assembly according to the embodiment of the present invention installed as described above will be described with reference to the drawings.

Referring to FIG. 10, the motor 200 is maintained in an off state, while a switch (not shown) is turned on, and a starting vibration is generated while the rotor is rotated to rotate to a specific ALPM. For example, when the rotor is rotated in either the right or left direction, the vibration is generated in the motor 200, and the vibration caused by the start of the rotor is a ring-shaped circumferential direction of the damping unit 400 Accordingly, the plurality of damping members 410 are transmitted. The damping member 410 is bent in the circumferential direction of the motor 200 to efficiently damp the transmitted vibration. The damping member 410 attenuates the starting vibration generated in the motor through compression and tensile deformation within the section of the connecting member 420, and attenuates to a minimum through the connecting member 420 fixed to the mounting part 302. Only the given vibration is transmitted to the support cover 300.

The damping member 410 attenuates the starting vibration caused by the start of the motor 200 and the vibration caused by the inherent vibration of the motor generated by the normal operation of the motor 200 and the eccentric rotation of the rotor. The damping member 410 may be stably damped regardless of vibration generated in the circumferential direction and vibration generated in the front and rear directions among vibrations generated by the motor 200. In addition, since the damping member 410 is composed of different spring constants, the damping control can be performed for each vibration frequency.

The support cover 300 supports the rotation force generated while the fan 100 made of a predetermined size rotates, and the support rib 320 supports the weight of the fan 100 and the motor 200. The support rib 320 concentrates the load at a specific position of the support rib 320 while the weight of the fan 100 and the motor 200 is supported and distributed through the first and second support ribs 322 and 324 and the connecting rib 326. Diffusion occurs. For example, the load applied to the first support rib 322 is transmitted to the neighboring second support ribs 324 through the connecting rib 326, and the load applied to the first first support rib 322 is distributedly supported. In addition, the support rib 320 according to the present exemplary embodiment has a cross-sectional structure in which both ends are bent toward the fan 100 and have a flat surface toward the motor 200, so that the support rib 320 is in the width direction or the length direction of the support rib 320. Even when the load is concentrated, deformation does not occur and support is stable.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention as set forth in the appended claims. The present invention can be variously modified and changed by those skilled in the art, and it is also within the scope of the present invention.

100: Fan
200: motor
300: support cover
302: mounting part
310: Cover Housing
320: support rib
322, 324: 1st, 2nd support rib
326: connecting rib
400: damping part
410: damping member
420: connecting member

Claims (10)

Fan with a plurality of wings;
A motor for rotating the fan;
A support cover provided with a mounting portion for installing the motor; And
The fan assembly is coupled to the motor is installed in the mounting portion including a damping unit for reducing vibration. The method according to claim 1,
The support cover,
A cover housing disposed at the rear of the fan to form an edge having a predetermined size and having coupling holes at each corner;
And a support rib formed integrally with the cover housing and extending radially toward the mounting portion. The method of claim 2,
The support rib,
A fan assembly, which is configured to be bent from the front to the rear of the support cover. The method of claim 2,
The support rib,
First support ribs spaced at equal intervals from a mounting part;
And a second support rib disposed between the first support ribs. The method according to claim 1,
The first support rib and the second support rib has a fan assembly having a different width. The method according to claim 1,
The damping unit,
A damping member disposed along an outer circumferential surface of the motor;
And a connection member provided to connect the damping members to each other and having a hole formed to have a predetermined size. The method of claim 6,
The damping member,
Fan assembly, characterized in that either coil spring or leaf spring is optionally used. The method according to claim 1,
The damping member,
A fan assembly, characterized in that coil springs or leaf springs of different spring constants are used. The method according to claim 1,
The motor includes:
And a fixing piece spaced apart at regular intervals along the outer circumferential surface and configured to fix the damping part. The method of claim 6 or 9,
The motor includes:
Any one hole and the fixing piece provided in the connecting member is fixed via a bolt,
The other hole provided in the connection member is a fan assembly, characterized in that fixed via the mounting portion and the bolt.

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