KR101644031B1 - Air blower - Google Patents

Abstract

According to the present invention, disclosed is an air blower capable of adjusting a pitch angle of a blade through pneumatic pressure. According to one embodiment of the present invention, when pneumatic pressure is provided to a first space in a piston housing by a pneumatic unit, the piston housing and a housing cover are formed to perform a certain extent of linear moving along an axial direction with respect to a piston by confronting elastic force of a compressive coil spring, and a blade is interlocked with linear movement of the piston housing and the housing cover by a crank arm, so an air blower whose rotation is adjusted with respect to a pitch shaft is provided. Moreover, using pneumatic pressure as an operation medium, the air blower can be applied in a high temperature environment and can be applied as a smoke exhaust system for an emergency like fire.

Description

Blower {AIR BLOWER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a blower, and more particularly, to an axial blower that can be used in a ventilation system for buildings, tunnels, underground facilities, and the like.

Ventilation systems for ventilation and air supply are installed in buildings, underground facilities, tunnels, etc. The ventilation system has a blower (AIR BLOWER) as a main component. In recent years, a variable pitch type that improves the power efficiency by appropriately controlling the blade angle, that is, the pitch angle, in accordance with the load characteristic has appeared in the blower. The variable pitch type blower is designed to adjust the pitch angle by rotating the blades mechanically during the blower operation, so that it is designed to achieve the performance suited to the load characteristics through a simple operation at a large load specification point. The adjustment of the pitch angle not only reduces the power required to drive the blower, but also maintains a constant supply and exhaust efficiency, which has a positive effect on the ventilation of the blower and the performance of the air supply and exhaust.

However, currently used variable pitch type blowers and pitch angle adjusting devices use hydraulic pressure as working medium. Such a hydraulic pressure has a favorable aspect to the mechanical operation of the blade, but has a limitation that it is very vulnerable to a high temperature environment. That is, in an emergency such as a fire, hydraulic oil (oil) can cause fires or amplify the fire, which can have a fatal adverse effect on safety. Therefore, the hydraulic type blower has inherent defects in the high temperature environment and fire, and therefore, the conventional variable pitch type blower has been partially employed only in the limited area where the fire path is blocked.

Embodiments of the present invention provide a fan capable of adjusting the pitch angle through pneumatic pressure to be used in a high temperature environment or in an emergency such as a fire.

According to an aspect of the present invention, there is provided an air conditioner comprising: a duct extending along a direction of air supply and exhaust; A blade disposed within the duct; A motor for providing a rotational driving force to the blade; And a pitch angle adjusting unit for adjusting a pitch angle of the blade, wherein the pitch angle adjusting unit is coupled to the main shaft of the motor, and the insertion hole into which the main shaft is inserted is extended in the axial direction of the main shaft A fixing bushing having a coupling flange at a rear end thereof and a tapered portion at a front end thereof; A spring rod which is disposed at a front end of the fixed bushing and is fastened to the main shaft and has an inclined surface which is in contact with the tapered portion at a connection portion protruding from the rear center, A piston having a stopper for limiting a maximum pitch angle of the blade; The piston is received in the inner side, and the fixed bushing penetrates through the center of the rear surface to form a contact portion that contacts the outer surface of the fixed bushing. The piston is elastically supported by the compression coil spring fastened to the spring rod A piston housing; A housing cover in which a pressure hole, through which a pneumatic pressure is provided by a pneumatic unit, is passed through at a center of a front surface of the housing cover to seal the front surface of the piston housing to accommodate the piston; And one end of the one end is connected to a roller guide groove provided in the piston housing through a cam roller, and the other end is connected to the other end of the blade, Wherein the piston housing and the housing cover are separated from each other by the pneumatic unit, and the piston housing and the housing cover are separated from each other by the pneumatic unit Wherein when the pneumatic pressure is supplied to the first space, the piston is formed to be linearly moved in a predetermined direction in the axial direction with respect to the piston against the elastic force of the compression coil spring, and the blade is supported by the piston housing and the housing And is rotatable about the pitch axis in association with the linear movement of the cover. A blower may be provided.

The blower according to the embodiments of the present invention includes the pitch angle adjusting unit that can adjust the pitch angle of the blades through the air pressure so that the pitch angle can be appropriately adjusted according to the operating environment and the equipment can be operated with the optimum efficiency. Particularly, the blower according to the embodiments of the present invention is advantageous in that it can be used in a high temperature environment by using pneumatic pressure as an operating medium, and can be employed as a smoke exhausting means in a tunnel, a underground facility, etc. .

1 is a front view and a side view showing a blower according to an embodiment of the present invention.
2 is an enlarged view of the pitch angle adjusting unit shown in Fig.
3 is an enlarged view showing the fixed bushing shown in Fig.
Figure 4 is an enlarged view of the piston shown in Figure 2;
Figure 5 is an enlarged view of the piston housing and housing cover shown in Figure 2;
6 is an enlarged view showing the crank arm shown in Fig.
7 is a first operating state view of the blower shown in Figs. 1 to 6. Fig.
8 is a second operating state view of the blower shown in Figs. 1 to 6. Fig.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. It is to be understood, however, that the following examples are provided to facilitate understanding of the present invention, and the scope of the present invention is not limited to the following examples. In addition, the following embodiments are provided to explain the present invention more fully to those skilled in the art. Those skilled in the art will appreciate that those skilled in the art, Will be omitted.

1 is a front view and a side view showing a blower 100 according to an embodiment of the present invention.

Referring to FIG. 1, the blower 100 according to the present embodiment may be configured as an axial flow type blower capable of supplying and discharging air in the axial direction of the main shaft, and includes a duct 110 extending along the air flow direction A blade 120 disposed inside the duct 110, and a motor 130 for rotationally driving the blade 120. The configuration of the duct 110, the blade 120, and the motor 130 may be similar to the conventional axial flow type blower, and is not described in detail in the description of the present invention. .

1, the blower 100 according to the present embodiment may include a pitch angle adjusting unit 140 disposed at the center of rotation of the blade 120. [ The pitch angle adjusting unit 140 is for adjusting the blade angle of the blade 120, that is, the pitch angle. In this respect, the blower 100 according to the present embodiment may be referred to as a variable pitch type blower . In particular, as described below, the blower 100 according to the present embodiment is formed in a structure capable of adjusting the pitch angle of the blades 120 through air pressure, so that it can be distinguished from a conventional hydraulic pressure-based variable pitch type blower . In other words, the pitch angle control unit 140 of this embodiment can be configured to adjust the pitch angle of the blade 120 based on the air pressure.

The pneumatic system as described above has an advantage that it can be applied even in a high temperature environment as compared with a pitch angle control structure based on a hydraulic pressure. That is, since the hydraulic angle-based pitch angle control structure is very vulnerable to a high-temperature environment such as a fire, there is a limit to implementing the smoke-extinguishing function in case of fire. For example, the heat resistance standard of the ventilation system for domestic underground facilities and tunnels should satisfy the heat load condition of 60 minutes in the environment of 250 degrees, and it is difficult to satisfy the heat load condition in the case of the hydraulic system using oil as the operation medium. On the other hand, since the blower 100 of the present embodiment uses pneumatic (air) as a working medium, there is no difficulty in use in a high-temperature environment and securing heat resistance, and it is difficult to apply to underground facilities, tunnels It is advantageous that the system can be fully utilized as an emergency supply / exhaust system of an emergency.

Hereinafter, the pneumatic type pitch angle control unit 140 as described above will be described in more detail with reference to the drawings.

2 is an enlarged view of the pitch angle control unit 140 shown in Fig. For convenience of explanation, it is noted that the side sectional view is shown as a center.

Referring to FIG. 2, the pitch angle adjusting unit 140 according to the present embodiment may include a fixed bushing 141 coupled to the main shaft 131. At this time, the main shaft 131 means the main drive shaft which is rotationally driven by the motor 130 (see FIG. 1). The fixed bushing 141 may include an insertion hole 141a in which the main shaft 131 is inserted and inserted, and the insertion hole 141a extends in the axial direction of the main shaft 131, May be formed to pass through. The fixed bushing 141 can be rotatably coupled to the main shaft 131 through the key 131a and rotated together with the main shaft 131. A rear end of the fixed bushing 141 And a coupling flange 141b for coupling with the coupling flange 141b.

The blade 120 may be connected to the fixed bushing 141 via a hub 121. [ That is, the hub 121 is disposed so that the fixed bushing 141 passes through the center thereof, and can be fastened to the fixed bushing 141 through the coupling flange 141b at the rear end of the fixed bushing 141, And is mounted and supported on one side of the same hub 121. In this case, the blower 100 according to the present embodiment is a variable pitch type in which the pitch angle of the blade 120 can be adjusted, and the blade 120 is arranged on the hub 121 so as to be rotatable about the pitch axis with respect to the hub 121 .

Meanwhile, the pitch angle adjusting unit 140 according to the present embodiment may include a piston 142 disposed at a front end (left side in the figure) of the fixed bushing 141. The piston 142 can be coupled to the front end of the main shaft 131 through bolts 142k extending in the axial direction of the main shaft 131. The center portion of the piston 142 protruding rearward comes into contact with the front end of the fixed bushing 141, A part of which can be inserted and arranged in the insertion hole 141a inside the bushing 141. [ The movement of the piston 142 in the forward and backward directions is constrained and fixed by the central bolt 142k.

The pitch angle adjusting unit 140 according to the present embodiment may include a piston housing 143 and a housing cover 144 that accommodate the piston 142 and form a predetermined pressure space. The piston housing 143 is disposed so that the fixed bushing 141 passes through the rear center of the piston housing 143 and the housing cover 144 can be fastened to the piston housing 143 to seal the front surface of the piston housing 143. The piston housing 143 and the housing cover 144 can form a closed space therein and a piston 142 is disposed in the space to define the space between the first space S1 in front and the second space S1 in the rear. (S2). When the piston housing 143 and the housing cover 144 are provided with a predetermined air pressure in the first space S1 by the pneumatic unit 144a, the piston housing 143 and the housing cover 144 are moved in the forward and backward directions with respect to the fixed piston 142, 131).

The pitch angle adjusting unit 140 according to the present embodiment includes a crank arm 140 that rotates the blade 120 about the pitch axis by transmitting the forward and backward or axial linear motion of the piston housing 143 to the blade 120 145). The crank arm 145 can be linked with the piston housing 143 through the cam roller 145a and connected to the shank portion 122 on the proximal end side of the blade 120 to rotate the linear movement of the piston housing 143, (120).

Hereinafter, the fixed bushing 141, the piston 142, the piston housing 143, the housing cover 144 and the crank arm 145 will be described in more detail with reference to the drawings.

3 is an enlarged view showing the fixed bushing 141 shown in Fig.

3, the stationary bushing 141 is provided with an insertion hole 141a extending in the axial direction at its center, and the main shaft 131 is inserted axially through the rear end of the insertion hole 141a. 131). The fixed bushing 141 is rotatably restrained by the main shaft 131 through the key 131a and firmly fixed through the set screw 141f provided in the vicinity of the key 131a so that the fixed bushing 141 is prevented from being displaced in the axial direction. The coupling flange 141b at the rear end of the fixed bushing 141 may be provided with a hub fixing hole 141c and may be rigidly bolted to the hub 121. [

On the other hand, a piston fixing hole 131a extending in the axial direction is provided at the front end of the main shaft 131, and the piston 142 is coupled and fixed in the axial direction through the bolt 142k (see FIG. At this time, an E-type stop ring 141d for guiding the axial insertion position of the main shaft 131 may be installed on one side of the fixed bushing 141. Thus, the main shaft 131 has the E-shaped stop ring 141d in the axial direction.

In addition, a tapered portion 141e may be formed at the front end of the fixed bushing 141. 2, the rear center portion of the piston 142, which is in contact with the stationary bushing 141, is located on the tapered portion 141e. The tapered portion 141e is a portion where the piston 142 is contactably supported. And may have a corresponding inclined surface 142c. Accordingly, the piston 142 is fastened in such a manner that the inclined surface 142c is in contact with the tapered portion 141e at the front end of the fixed bushing 141. [ Such a structure guides the assembly position of the piston 142 so that the piston 142 can be installed coaxially with the fixed bushing 141 and the main shaft 131 and the piston 142 and the fixed bushing 141, There is an advantage that the fixing force and the durability can be increased by increasing the contact surface with the front end. In addition, since the sealing surface between the piston 142 and the fixed bushing 141 and the sealing force by the bolt 142k are increased, the airtight performance inside the piston housing 143 can be improved.

4 is an enlarged view showing the piston 142 shown in Fig.

4, the piston 142 includes a partition plate 142a for partitioning the inside of the piston housing 143 into first and second spaces S1 and S2, And a connection portion 142b which is fastened to the fixed bushing 141. [ As shown in the figure, the connection portion 142b may protrude toward the rear of the partition plate 142a toward the rear of the main shaft 131 and the fixed bushing 141 by a predetermined amount, and the tapered portions 141e and 141e The inclined surface 142c may be provided in a corresponding shape. A bolt insertion hole 142d extending in the axial direction is formed at the center of the connection portion 142b and is configured to be bolted to the main shaft 131 through the bolt 142k.

Meanwhile, the piston 142 may have a spring rod 142e extending rearward from the rear surface of the partition plate 142a. A plurality of the spring rods 142e may be provided, and a plurality of the spring rods 142e may be spaced circumferentially around the center connecting portion 142b (see FIG. 1). A compression coil spring 142f can be fastened to the spring rod 142e as will be described later. The compression coil spring 142f is mounted and guided by the spring rod 142e.

In addition, the piston 142 may be provided with a stopper 142i for controlling the maximum pitch angle of the blade 120. The stopper 142i limits the relative movement range of the piston housing 143 with respect to the piston 142 so that the maximum pitch angle of the blade 120 does not deviate from the predetermined range.

That is, in the case of the variable pitch type, there is an advantage that the pitch angle is freely adjusted so that the power can be used from the low horsepower to the high horsepower due to its characteristics. On the other hand, when the pitch angle is changed at an excessive angle, Can be increased proportionately. The stopper 142i may be provided on the piston 142 to restrict the movement range of the piston housing 143 so that the motor 140 may be damaged due to excessive pitch angle change or motor damage And the like can be prevented.

The stopper 142i includes a block member 142g for contacting the inner wall of the piston housing 143 so as to limit a movement range thereof and a fixing means 142h for fixing the block member 142g to the piston 142 And the size of the block member 142g and the like can be changed according to installation environment, blower specifications, and the like. Also, a plurality of stoppers 142i may be provided and spaced circumferentially around the connection portions 142b.

On the other hand, an O-ring groove 142j is provided on the outer edge of the partition plate 142a to mount an O-ring for sealing the first and second spaces S1 and S2 inside the piston housing 143, The bolt insertion hole 142d at the center of the bolt 142b may be formed counter-sinking to enable airtight processing through the O-ring when assembling the bolt 142k.

5 is an enlarged view showing the piston housing 143 and the housing cover 144 shown in Fig.

Referring to FIG. 5, the piston housing 143 and the housing cover 144 may receive the piston 142 and form a predetermined space S1, S2. The piston housing 143 may have a contact portion 143a contacting the outer surface of the stationary bushing 141. The stationary bushing 141 may be provided at the center of the rear surface of the piston housing 143, The pitch angle adjusting unit 140 according to the present embodiment is configured such that the piston housing 143 is linearly moved by the air pressure in a state where the piston 142 is fixed, And moves on the outer surface of the fixed bushing 141 according to the movement. Therefore, the contact portion 143a may be formed of a Teflon-based material at least partially or wholly having low abrasion resistance and frictional force.

On the other hand, the front surface of the piston housing 143 can be sealed through the housing cover 144. Therefore, the inner surface or the rear surface of the housing cover 144 forms a sealed first space S1 between the front surface of the piston 142 and the front surface. The first space S1 can be used as a pressure space for operating the piston housing 143 and the like and is supplied with air pressure through a pneumatic unit 144a mounted at the center of the housing cover 144. [ An O-ring 144c may be mounted on an outer edge of the housing cover 144 to seal the first space S1 together with an O-ring 142l mounted on the outer rim of the piston 142. [

The piston housing 143 and the housing cover 144 as described above can be linearly moved in the forward and backward directions with respect to the piston 142, that is, in the axial direction of the main shaft 131, in accordance with the pneumatic pressure provided in the pneumatic unit 144a . That is, when the pneumatic unit 144a fastened to the outer center of the housing cover 144 provides a predetermined pneumatic pressure in the first space S1 through the pressure hole 144b formed in the housing cover 144, So that the piston housing 143 and the housing cover 144 are moved relative to the piston 142.

On the other hand, return of the piston housing 143 corresponding to the air pressure in the first space S1 can be achieved by the compression coil spring 142f mounted between the piston 142 and the piston housing 143. [ That is, the spring rod 142e may be fastened to the compression coil spring 142f, and the compression coil spring 142f elastically supports between the rear surface of the piston 142 and the inner surface of the piston housing 143. The elastic force of the compression coil spring 142f may act in a direction opposite to the pneumatic pressure of the first space S1 so that the piston housing 143 and the like are in contact with the air pressure in the first space S1, 142f. On the other hand, the spring rod 142e for guiding the mounting and elastic deformation of the compression coil spring 142f has a front end fixedly coupled to the piston 142 and a rear end penetrating the rear surface of the piston housing 143, And is partially exposed to the rear of the piston housing 143 in accordance with the compression deformation of the spring 142f.

When the piston housing 143 is moved to a predetermined range when the piston housing 143 is moved forward (leftward in the figure), the stopper 142i is brought into contact with the inner surface of the piston housing 143 to be in contact with the piston housing 143 In the present embodiment. Since the movement range of the piston housing 143 is limited in this manner, the maximum pitch angle of the blade 120, which is adjusted in pitch angle with the movement of the piston housing 143, can be limited to a predetermined range.

Meanwhile, a roller guide groove 143b for linking the crank arm 145 to the crank arm 145 may be formed on a rear outer surface of the piston housing 143. The roller guide groove 143b may be formed such that the outer surface of the piston housing 143 is recessed toward the central fixed bushing 141 and the cam roller 145a at one end of the crank arm 145 . This will be further described below with reference to FIG.

6 is an enlarged view showing the crank arm 145 shown in Fig.

6, the crank arm 145 is connected to the shank portion 122 of the blade 120, and the cam roller 145a is mounted at one end thereof and can be fastened to the roller guide groove 143b described above. Can be installed. The crank arm 145 converts the forward and backward movement of the piston housing 143 into rotational motion and transmits it to the blade 120, which causes the blade 120 to be rotated about the pitch axis.

Meanwhile, in this case, the cam roller 145a is formed of a material suitable for high temperature and has sufficient heat durability and can be formed so as to allow sliding movement. The cam roller 145a is connected to the crank arm 145 As shown in Fig. In addition, a thrust bearing 145c may be mounted to control the rotation of the blade 120 in a quiet and precise manner, and a grease nipple 145d may be provided to enable operation even in a high temperature environment, And may be formed so as to be able to be injected into the thrust bearing 145c. In addition, when the blade 120 is rotated about the pitch axis, a seam spring 145e may be inserted between the blade 120 and the hub 121 so as to soften the rotation operation and provide appropriate clearance.

Hereinafter, the operation of the blower 100 according to the present embodiment will be briefly described with reference to the drawings.

FIG. 7 is a first operating state view of the blower 100 shown in FIGS. 1 to 6, and FIG. 8 is a second operating state view of the blower 100 shown in FIGS.

7, when the pneumatic pressure is supplied to the first space S1 through the pneumatic unit 144a to increase the pneumatic pressure in the first space S1, correspondingly, the piston housing 143 rotates the piston (Leftward in the drawing) with respect to the guide member 142 as shown in Fig. At this time, the pneumatic unit 144a can provide pneumatic pressure from the air compressor by a pilot positioner, a pneumatic controller, or the like installed outside. The movement of the piston housing 143 is transmitted to the blade 120 through the cam roller 145a and the crank arm 145 and is converted into rotational motion by the crank arm 145 to move the blade 120 to the pitch axis And is rotated by an angle corresponding to the center. For reference, in the illustrated case, the pitch angle of the blade 120 is adjusted to the maximum with the piston housing 143 being maximally moved to a position where the piston housing 143 contacts the stopper 142i.

8, when the air pressure in the first space S1 is reduced, the piston housing 143 is moved rearward (to the right in the drawing) relative to the piston 142 due to the elastic force of the compression coil spring 142f . When the air pressure in the first space S1 is completely removed, the piston housing 143 can be moved back to the maximum position where the housing cover 144 and the piston 142 are adjacent to each other as shown, The pitch angle is reduced to a minimum.

As described above, the blower 100 according to the embodiments of the present invention includes the pitch angle adjusting unit 140 that can adjust the pitch angle of the blade 120 through the air pressure, so that the pitch angle is appropriately adjusted according to the operating environment And the facility can be operated with optimum efficiency. In particular, the blower 100 according to the embodiments of the present invention can be used in a high temperature environment by using pneumatic pressure as an operating medium, and can be employed as a smoke exhausting means in tunnels, underground facilities, There is an advantage.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, many modifications and changes may be made by those skilled in the art without departing from the spirit and scope of the invention as defined 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: blower 110: duct
120: blade 130: motor
140: Pitch angle control unit

Claims (3)

A duct 110 extending along the air supply and exhaust direction;
A blade 120 disposed within the duct 110;
A motor 130 for providing a rotational driving force to the blade 120; And
And a pitch angle adjusting unit (140) for adjusting a pitch angle of the blade (120)
The pitch angle adjusting unit 140 may include a pitch angle adjusting unit 140,
The insertion hole 141a is coupled to the main shaft 131 of the motor 130 and extends in the axial direction of the main shaft 131. A hub 121 A fixing bushing 141 having a coupling flange 141b to be fastened and a tapered portion 141e at the front end;
The connecting portion 142b protruding from the center of the rear surface of the fixing bushing 141 is fastened to the main shaft 131 and has an inclined surface 142c contacting the tapered portion 141e. A piston 142 having a spring rod 142e extending in the axial direction and having a stopper 142i for restricting a maximum pitch angle of the blade 120 on the rear side;
The stationary bushing 141 is inserted into the rear center of the piston 142 to receive the piston 142. The contact portion 143a is in contact with the outer surface of the stationary bushing 141. The spring rod 142e, A piston housing 143 elastically supported with respect to the piston 142 by a compression coil spring 142f fastened to the piston 142;
A space S1 and a space S2 in which the piston 142 is accommodated is formed by sealing the front surface of the piston housing 143 and a pressure hole 144b provided at the center of the front surface of the piston housing 143 to provide pneumatic pressure by a pneumatic unit 144a A housing cover 144 formed to penetrate therethrough; And
The piston housing 143 rotates in the axial direction by a rotational motion about the pitch axis to the blade 120 and is transmitted to the piston 120 via the cam roller 145a, And a crank arm 145 which is fastened to the guide groove 143b and whose other end is fastened to the shank portion 122 of the blade 120,
The spaces S1 and S2 are partitioned into a first space S1 forwardly and a second space S2 rearward by the piston 142,
The piston housing 143 and the housing cover 144 are configured such that when the pneumatic pressure is applied to the first space S1 by the pneumatic unit 144a, Is formed so as to be linearly moved to a predetermined degree in the axial direction with respect to the base member (142)
Wherein the blade (120) is configured to be rotated about the pitch axis in association with the linear movement of the piston housing (143) and the housing cover (144) by the crank arm (145). The method according to claim 1,
The blade 120 is mounted on the hub 121 so as to be rotatable about the pitch axis,
The piston 142 has a bolt insertion hole 142d formed at the center thereof to penetrate in the axial direction and a bolt 142k inserted into the bolt insertion hole 142d is inserted into the piston fixing And is fixedly coupled to the main shaft 131 in the axial direction by being bolted to the hole 131a,
The stopper 142i includes a block member 142g that contacts the inner surface of the piston housing 143 in accordance with the movement of the piston housing 143 and a block member 142g that connects the block member 142g to the rear surface of the piston 142 And a fixing means (142h) for fixing the fixing member. The method according to claim 1,
The contact portion 143a is made of a Teflon material in part or whole,
O-rings 142l and 144c for sealing the first space S1 are fastened to outer rims of the piston 142 and the housing cover 144,
Wherein a spring (145e) for elastically supporting the blade (120) in the pitch axis direction is provided between the blade (120) and the hub (121).

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