JPS62253999A - Propeller fan of air conditioner - Google Patents

Abstract

PURPOSE:To restrain the generation of eddy air by providing a damper which can be switched over to both a first guide position along a flow in the centripetal direction and a second guide position along a flow in the adverse centripetal direction, on the outlet side of a fan guide. CONSTITUTION:A damper 5 which can be switched over to both a first guide position along a flow in the centripetal direction and a second guide position along a flow in the adverse centripetal direction, is provided on the outlet side of a fan guide 4. The damper 5 is switched over in response to the operating condition of a propeller fan, and air from a fan body 3 is streamlined by the damper 5 and blown outward. Thereby, the generation of eddy air in the front positions in an air blow-out direction can be restrained.

Description

Detailed Description of the Invention (Industrial Application Field) The present invention relates to a propeller fan for an air conditioner, and more specifically, a propeller fan for an air conditioner, which comprises a fan body having a plurality of blades arranged around the outer periphery of a hub, and a fan guide. The present invention relates to a propeller fan in which a heat exchanger in an air conditioner is disposed on the suction side of the propeller fan.

(Prior art) For outdoor units of air conditioners, for example,
As described in Publication No. 30-1114f3B, a heat exchanger and a propeller fan are disposed in opposition inside a casing, and as the propeller fan rotates, outside air sucked in from the outside of the casing is recorded as 1 liter. It is brought into contact with a heat exchanger to perform heat exchange between the heat exchanger and the outside air.

However, as shown in FIG. 5, the propeller fan used as described above generally has a plurality of blades (32) arranged around the outer periphery of a hub (31) to form the fan body (3). A cylindrical fan guide (4) is disposed at a position radially outward of the blade (32) in the fan body (3).

(Problems to be Solved by the Invention) By the way, when the internal resistance of the fan body (3) changes due to conditions such as frost formation on the heat exchanger, the flow rate at which the fan body (3) is operated changes accordingly. However, when the fan body (3) is operated in a low flow rate range, air is blown out from the hub side of the fan body (3) in a counter-centripetal direction, as shown by the solid arrow in FIG. However, at this time, the fan guide (4) is located at the front position in the air blowing direction.
), a vortex (a) as shown by the solid line in the figure is generated.

Further, when the fan body (3) is operated in a high flow rate region, as shown by the imaginary line arrow in FIG.
3), the air is blown out from the outside in the radial direction toward the centripetal side, and at this time, at the outer circumference of the fan body (3), there is a point at the front of the air blowing direction as shown by the imaginary line in the figure. A vortex (b) is generated.

Therefore, the vortices (a) and (b) generated when the fan body (3) operates in the high and low flow ranges deteriorate the static pressure characteristics of the propeller fan, that is, the fan efficiency, and also increase the specific noise. There was a problem.

The present invention has been made in view of the above-mentioned problems, and its purpose is to suppress the generation of each of the vortices by adding simple parts to the fan body, thereby reducing the static pressure and specific noise of the propeller fan. The purpose is to enhance the characteristics.

(Means for Solving the Problems) The propeller fan of the present invention is constructed as shown in FIG. and a fan guide (4), in which a heat exchanger (2) in an air conditioner is disposed on the suction side of the fan main body (3), and a fan guide (4) on the outlet side of the fan guide (4). , a damper (
5) and a switching control means for switching the damper (5) between a first guide position and a second guide position in accordance with the outlet flow of the fan body (3). .

(Function) When the propeller fan is operated in a high flow rate region, the damper (5) is switched to the first guide position by the switching control means, and the damper (5) is used to control the flow rate from the fan body (3). The blown air is guided in the centripetal direction, and when the propeller fan is operating in a low flow region, the damper (5) is switched to the second guide position, and the damper (5) guides the fan body (3). ) is guided in a counter-centripetal direction. In other words, the damper (5) is switched in accordance with the operating state of the propeller fan, and the damper (5) causes air flow from the fan body (3) to flow outward. Therefore, the generation of vortices at the front position of the fan body (3) in the air blowing direction is suppressed, and the static pressure characteristics and specific noise characteristics of the propeller fan are improved.

(Example) A propeller fan for an air conditioner according to the present invention will be described below with reference to an example shown in the drawings.

Figure 1 shows an outdoor unit of an air conditioner, in which a heat exchanger (2
), and a propeller fan, which will be described later, is disposed at a position facing the heat exchanger (2) at the other side open portion of the casing (1).

The propeller fan includes a fan body (3) including a plurality of blades (32) extending radially outward on the outer periphery of a hub (31), and the other open side of the casing (1). The casing (1) is composed of a fan guide (4) integrally formed inwardly facing the blade (32), and rotates when the fan body (3) is driven. ), outside air is introduced from the - side open part, and is blown out from the fan guide (4) through the heat exchanger (2) to the outside, and the heat is exchanged by contact between the outside air and the heat exchanger (2). Heat exchange is performed in the container (2).

Therefore, in the propeller fan as described above, the air outlet side of the fan guide (4) can be switched between a first guide position along the centripetal flow and a second guide position along the counter-centripetal flow. A cylindrical damper (5) is provided, and switching control means is provided for switching and controlling the damper (5) to the first and second guide positions, respectively, depending on the air flow at the outlet of the fan body (3). It is.

As is clear from FIG. 2, the damper (5) includes a plurality of rectangular members (5a) made of a shape memory alloy and a plurality of triangular members (5b) made of a stretchable material such as rubber or an integrally molded annular member. This triangular member (5
b) Alternatively, an integrally molded annular member may be attached to the rectangular member (
5a) It is formed into an elastically deformable cylindrical shape by attaching an attachment between the two.

As is clear from FIG. 1, the casing (1
), a disc-shaped fixing plate (6) having a smaller diameter than the fan body (3) is placed at a predetermined interval at a position facing the fan body (3) on the outside of the casing (1). The damper (5) is fixedly supported via a plurality of support rods (7) extending from the damper, and the outer peripheral edge of the damper (5) is supported on the support rods (7), so that the damper (5) is switched by the switching operation by the switching control means. (5) at the first guide position (imaginary line position in the figure) facing the fan guide (4) and at the fixing plate (8).
) can be selectively switched to a second guide position (solid line position in the figure) facing the outer peripheral edge of the fan body (3). ) to fixedly support the drive motor (8).

Further, a switching control means for controlling switching of the damper (5) to the first and second guide positions is provided inside the casing (1) to detect a frosted state of the heat exchanger (2). Detection sensor (9) and heater (not shown)
The heater is connected and supported to each rectangular member (5a) of the damper (5) formed of a shape memory alloy, and the heater is connected to the detection sensor (9), and the sensor The damper (5) is switched to the first and second guide positions by controlling the heater with the detection signal from (9) to elastically deform each rectangular member (5a) of the damper (5). As if under control.

Thus said heat exchange i! For example, if frost or the like forms on S (2), the internal resistance in the casing (1) increases, and when the propeller fan is operated in a low flow range, the air blown from the fan body (3) , as shown by the solid line arrow in Figure 1, the air is blown out in the direction of the hub 4+11-5 of the front hit (3), and -51 from the detection sensor (9). A detection signal is output to the heater and the heater is heated, and the damper (5) is elastically deformed as shown by the solid line in the figure and moved to the second guide position by the heating of the heater. Therefore, the air blown from the fan body (3) is rectified by the damper (5) and guided in a counter-centripetal direction.

Furthermore, when the propeller fan is operated in a high flow range, n
The air blown from the fan body (ii) is blown out from the outside in the radial direction of the fan body (3) in the centripetal direction as shown by the cursor arrows in FIG. The heater is kept in a non-heating state by the detection signal from the detection sensor (9), and the damper (5)
) is held at the first guide position shown by the imaginary line in the figure, and therefore the air blown from the fan body (3) is rectified by the damper (5) and guided in the centripetal direction.

In the above embodiment, a shape memory alloy was used as a component of the damper (5), but in the present invention, a piezoelectric ceramic is used instead of the shape memory alloy, and a voltage change to the piezoelectric ceramic causes the damper to (5) may be elastically deformed to the first and second guide positions.

In addition, in controlling the switching of the damper (5),
In addition to the frost detection sensor (6) of the heat exchanger (2) shown in the embodiment, it is also possible to use, for example, a wind speed sensor installed inside the casing (1).

Next, the static pressure characteristics and sound characteristics of the propeller fan according to the present invention and the conventional one will be explained based on the test results shown in FIGS. 3 and 4.

Figure 3 shows a static pressure curve with flow ff1Q on the horizontal axis and static pressure Ps on the vertical axis, and as is clear from this figure,
It can be seen that the propeller fan of the present invention has a higher static pressure relative to the flow rate than the conventional one, and has excellent static pressure characteristics, that is, fan efficiency.

In addition, in Figure 4, the horizontal axis shows the flow ff1Q, and the vertical axis shows the specific noise DB.
As is clear from this figure, the propeller fan of the present invention has an overall low specific noise with respect to the flow rate, and it can be understood that it has excellent sound characteristics.

(Effects of the Invention) As explained above, in the propeller fan according to the present invention, the fan guide (4) has a first guide position along the flow in the centripetal direction and a second guide position along the flow in the counter-centripetal direction on the exit side of the fan guide (4).
The damper (5) is provided with a damper (5) that can be switched between a first guide position and a second guide position, and a switching control means that switches the damper (5) between a first guide position and a second guide position according to the outlet flow of the fan body (3). Since it is provided, the fan body (
3) The generation of vortices on the air outlet side can be suppressed to a minimum, and the static pressure characteristics and noise characteristics of the propeller fan can be improved.

[Brief explanation of drawings]

Fig. 1 is a thin sectional view of an air conditioner equipped with a propeller fan of the present invention, Fig. 2 is a front view showing a part of the damper, Fig. 3 is a diagram showing static pressure characteristics, and Fig. 4 is Kitamonon. FIG. 5, which is a drawing showing characteristics, is a drawing explaining a conventional example. (2)---・Shell heat exchanger (3)---Fan body (31) Association...Hub (32)-m-・Blade (4)・Assembly...Fan guide (5)・・１１＠φdamper

Claims (1)

[Claims] It consists of a fan body (3) with a plurality of blades (32) arranged around the outer periphery of a hub (31) and a fan guide (4), and a heat exchanger in an air conditioner is installed on the suction side of the fan body (3). It is a propeller fan arranged as if it were
A damper (5) is provided on the outlet side of the fan guide (4) and is switchable between a first guide position along the centripetal flow and a second guide position along the counter-centripetal flow. A propeller fan for an air conditioner, comprising a switching control means for switching the damper (5) between a first guide position and a second guide position according to the outlet flow of the main body (3).