KR20020085626A - Apparatus for preventing static pressure leakage in turbo - Google Patents

Abstract

PURPOSE: A constant pressure leakage prevention apparatus is provided to achieve improved performance of turbo fan by increasing pressure difference and air flow through the prevention of constant pressure leakage during generation of air flow from pressure difference. CONSTITUTION: A constant pressure leakage prevention apparatus comprises an integrated type turbo fan including a hub(100) having a shaft coupling portion(111), a plurality of blades(120) arranged at a constant interval at the side surface of the hub, and a shroud(130) having a predetermined width, and which is formed integrally with the outer ends of the blades; and a constant pressure leakage prevention plate arranged adjacent to the rear surface of the hub of the turbo fan. The constant pressure leakage prevention plate is shaped into a disk an inner diameter of which is smaller than the outer diameter of the hub and an outer diameter of which is larger than the outer diameter of the blade of the turbo fan.

Description

Static pressure leak prevention device of integrated turbo fan {APPARATUS FOR PREVENTING STATIC PRESSURE LEAKAGE IN TURBO}

The present invention relates to a static pressure leakage preventing device of an integrated turbo fan, and more particularly, in the process of generating a flow of air by a pressure difference generated by converting the kinetic energy into a static pressure while rotating by receiving the kinetic energy of the drive motor. It relates to a static pressure leakage prevention device of the integrated turbo fan to prevent the damage.

In general, air conditioners, dehumidifiers, etc. are provided with a refrigeration cycle device therein to keep the room in a comfortable state while repeating the circulation of cold air and heat generated in the heat exchanger constituting the refrigeration cycle device to the room through the fan. The dehumidifier keeps the room in a comfortable humidity state by removing moisture contained in the indoor air through a heat exchanger while circulating the indoor air.

1 and 2 show an integrated turbo fan that is pre- filed as an example of the fan (public space 54-117508), and as shown therein, the integrated turbo fan is formed in a circular shape and has a shaft therein. Hub 10 is provided with a shaft coupling portion 11 to be coupled, a plurality of braids 20 formed at regular intervals on one side of the hub 10 in a curved shape having a predetermined length, and a predetermined width It has an annular shape having a ring 30 is formed integrally with the outer end of the plurality of braids (20).

Each outer end of the plurality of braids 20 is located outside the rim of the hub 10 and each inner end of the plurality of braids 20 is located inside the hub 10. That is, the imaginary circle D1 connecting each outer end of the plurality of braids 20 is larger than the outer diameter D2 of the hub 10 and the virtual circle connecting each inner end of the plurality of braids 20. The circle D3 is smaller than the outer diameter D2 of the hub 10. The outer diameter D4 of the ring 30 is the same as the imaginary circle D1 connecting each outer end of the plurality of braids 20, and the inner diameter D5 of the ring 30 is the hub 10. It is formed larger than the outer diameter D2 of.

The ring 30 is formed in an annular shape having a predetermined thickness and width.

In the integrated turbo fan as described above, the outer diameter D2 of the hub 10 is formed to be smaller than the inner diameter D5 of the ring 30, so that the integrated turbo fan may be manufactured by a pair of molds.

In the integrated turbo fan, a driving motor M is located at the rear side of the hub 10, and the motor shaft S of the driving motor M is fixedly coupled to the shaft coupling portion 11 of the hub.

In the conventional integrated turbo fan as described above, as the driving motor M is driven, the driving force is transmitted through the motor shaft S to rotate. As the integrated turbo fan rotates, external air flows into the ring 30 by the pressure difference generated by the plurality of braids 20 and flows out between the braids 20 and the braids 20. Generate flow.

However, in the conventional integrated turbofan as described above, a pressure leakage occurs in the area between the outer end of the braid 20 and the edge of the hub 10 in the braid 20 that generates a pressure difference during rotation. There was a drawback to performance.

The object of the present invention devised in view of the above point is to receive the leakage of the static pressure in the process of generating the flow of air by the pressure difference generated by converting the kinetic energy into a static pressure while rotating and receiving the kinetic energy of the drive motor It is to provide a static pressure leakage prevention device of an integrated turbo fan to prevent the.

1 is a side cross-sectional view showing a conventional integrated turbo fan;

2 is a front view of the integrated turbo fan;

Figure 3 is a side cross-sectional view showing an integrated turbo fan static pressure leak prevention apparatus of the present invention,

Figure 4 is a side cross-sectional view of the dehumidifier equipped with an integrated turbo fan constant pressure leakage preventing device of the present invention.

** Explanation of symbols for main parts of drawings **

100; Hub 120; Braid

140; Positive pressure leakage preventing plate 150; Fixed body

160; Connection

In order to achieve the object of the present invention as described above, an integral turbo fan, comprising an integral turbo fan and a hydrostatic leakage preventing plate which is installed adjacent to the hub rear surface of the integral turbo fan to prevent static pressure leakage. Is provided for the static pressure leakage prevention device.

In addition, an integral turbo fan, a positive pressure leakage preventing plate installed adjacent to the hub rear surface of the turbo fan to prevent static pressure leakage, a fixed body provided around the turbo fan, and formed in a predetermined length, the positive pressure leakage Provided is a static pressure leakage preventing device of an integrated turbofan, characterized in that it comprises a connecting means for connecting the prevention plate and the fixed body.

Hereinafter, the static pressure leakage preventing device of the integrated turbofan of the present invention will be described according to the embodiment shown in the accompanying drawings.

Figure 3 shows an example of the static pressure leakage preventing device of the integrated turbo fan of the present invention, when described with reference to this, the integrated turbo fan is first formed in a circular shape and the shaft coupling portion 111 is coupled to the shaft therein ) Is provided with a hub 100, a plurality of braids 120 formed to extend at a predetermined interval on one side of the hub 100 in a curved shape having a predetermined length, the cross section is a curved shape It has a shroud 130 formed integrally with the outer end of the plurality of braid 120 in the annular shape.

An imaginary circle (hereinafter referred to as a braid outer diameter) D1 connecting each outer end of the plurality of braids 120 is greater than an outer diameter D2 of the hub 100 and each of the plurality of braids 120 The imaginary circle (hereinafter referred to as braid inner diameter) D3 connecting the inner end is smaller than the outer diameter D2 of the hub 100. The outer diameter D4 of the shroud 130 is the same as the outer diameter D1 of the plurality of braids 120, and the inner diameter D5 of the shroud 130 is the outer diameter D2 of the hub 100. Greater than or equal to

In addition, the positive pressure leakage preventing plate 140 formed to have a predetermined area is installed adjacent to the rear surface of the hub 100 of the integrated turbo fan. The positive pressure leak prevention plate 140 has a disc shape having a predetermined width, the inner diameter of which is smaller than the outer diameter D2 of the integrated turbo fan hub 100, and the outer diameter thereof is larger than the plurality of braid outer diameters D1 of the integrated turbo fan. It is largely formed.

And the fixed body 150 is formed to have a predetermined area and the flow guide hole (H) therein is fixed to be located around the integral turbo fan. And it is provided with a connecting means 160 for connecting the positive pressure leakage preventing plate 140 and the fixed body 150.

The positive pressure leakage preventing plate 140, the fixed body 150 and the connecting means 160 is preferably formed integrally.

The outer diameter of the positive pressure leakage preventing plate 140, the fixed body 150 and the connecting means 160 is made by a pair of molds is smaller than the inner diameter of the fixed body 150 The connecting means 160 is positioned between the outer circumferential surface of the positive pressure leakage preventing plate 140 and the inner circumferential surface of the fixed body 150.

The connecting means 160 is formed to have a predetermined length, one side of which is coupled to the positive pressure leakage preventing plate 140 and the other side is provided with one or more number of connection members coupled to the fixed body 150 Is done.

The integrated turbo fan has an outer diameter of the hub 100 smaller than the inner diameter of the shroud 130 to be manufactured by a pair of molds, and also the positive pressure leakage preventing plate 140 and the connecting means 160. In addition, the fixed body 150 can be manufactured by a pair of molds.

In the integrated turbo fan, a driving motor M is positioned at the rear side of the hub 100, and the motor shaft S of the driving motor M is fixedly coupled to the shaft coupling portion 111 of the hub 100. .

Operation of the static pressure leakage preventing device of the integrated turbo fan is as follows.

First, as the driving motor M is driven, the driving force is transmitted through the motor shaft S to rotate. As the integrated turbo fan rotates, external air flows into the shroud 130 by the pressure difference generated by the plurality of braids 120 and flows out between the braids 120 and the braids 120. Generate flow. At this time, since the positive pressure leakage preventing plate 140 is located in an area between the outer circumferential surface of the hub 100 and the plurality of braid outer diameters D1, the outer circumferential surface of the hub 100 and the plurality of braids 120 are rotated when the integrated turbo fan is rotated. This prevents leakage of static pressure between outer diameters.

On the other hand, the dehumidifier to which the integrated turbo fan constant pressure leakage preventing device of the present invention is applied is as follows.

As shown in FIG. 4, the dehumidifier having the integrated turbo fan constant pressure leakage preventing device includes a case 200 formed to have a predetermined internal space, and an evaporator 210 that is successively mounted on one side of an upper portion inside the case 200. ) And a condenser 220, an integrated turbo fan installed at the front of the evaporator 210 and the condenser 220, a drive motor M for driving the fan, and a compressor mounted below the integrated turbo fan. 230 and a discharging means (not shown) for discharging the moisture removed from the evaporator 210.

The case 200 has a partition frame 211 formed with a cylindrical flow guide hole (H) is formed inside the case 200, the heat exchanger mounting space (A) and the fan mounting space (B) And it is divided into the compressor mounting space (C) and the corresponding parts are mounted in each mounting space.

In addition, the discharge grill 212 is provided on the front of the case 200 and the suction port (not shown) is provided on the rear.

And the flow guide hole (H) of the partition frame 211 is located between the heat exchanger mounting space (A) and the fan mounting space (B) to communicate the two spaces of the flow guide hole (H) The integrated turbo fan is located therein.

In addition, the positive pressure leakage preventing plate 140 is installed adjacent to the rear surface of the hub 100 of the integrated turbo fan. That is, the positive pressure leakage preventing plate 140 has a disc shape having a predetermined width, the inner diameter of which is smaller than the outer diameter D2 of the integrated turbo fan hub 100, and the outer diameter of the plurality of braid outer diameters D1 of the integrated turbo fan. It is formed larger than).

In addition, the positive pressure leakage preventing plate 140 is connected to the partition frame 211 by the connecting means 160 is fixedly coupled. That is, when a connecting member having a predetermined length is used as the connecting means 160, one side of the connecting member is connected to the positive pressure leakage preventing plate 140, and the other side is connected to the edge portion of the flow guide hole (H). do. At this time, the partition frame 211 with the flow guide hole (H) is to form a fixed body 150.

As described above, the operation of the dehumidifier is driven by the rotation of the integrated turbo fan when the refrigeration cycle apparatus is operated by the compressor 230 and the drive motor M is driven to rotate the integrated turbo fan. The outside air is introduced into the case 200 through the suction port by the pressure difference. The air sucked into the case 200 through the intake port passes through the evaporator 210 and the condenser 220, and removes moisture contained in the air, and includes an integrated turbo fan located inside the flow guide hole H. It flows through the positive pressure leakage preventing plate 140. At this time, the positive pressure leakage preventing plate 140 is located in an area between the outer circumferential surface of the hub 100 and the plurality of braid outer diameters D1, so that the outer circumferential surface of the hub 100 and the plurality of braid outer diameters are rotated when the integrated turbo fan is rotated. Since the static pressure is prevented from leaking between (D1) and the pressure difference increases, the flow rate of air is increased.

In addition, the air passing through the integrated turbo fan and the positive pressure leakage preventing plate 140 is discharged into the room through the discharge grill 212.

The dehumidifier is a heat exchanger for removing moisture contained in the air, that is, the flow resistance is increased during the passage of air through the evaporator 210 and the condenser 220, so the input of the driving motor (M) is increased, but the integrated turbo Since the pressure difference is increased by the static pressure leakage preventing device of the fan and its integrated turbo fan, the flow rate of air is increased to sufficiently overcome the flow resistance generated in the heat exchanger, thereby reducing the input of the motor and improving the performance of the dehumidifier. Let's go.

As described above, the static pressure leakage preventing device of the integrated turbofan according to the present invention receives the kinetic energy of the driving motor while rotating to generate the flow of air by the pressure difference generated by converting the kinetic energy into a positive pressure. By preventing the leakage of the static pressure, the pressure difference is increased to increase the flow rate of the air, thereby improving the performance of the integrated turbofan and also making it possible to manufacture a pair of molds, which not only increases the productivity but also reduces the manufacturing cost. It has an effect.

Claims (6)

An integral turbo fan and a static pressure leakage preventing device of the integral turbo fan, characterized in that it comprises a hydrostatic leakage prevention plate which is installed adjacent to the hub back of the integral turbo fan to prevent static leakage. An integral turbo fan, a positive pressure leakage preventing plate installed adjacent to the hub rear surface of the turbo fan to prevent static pressure leakage, a fixed body installed around the turbo fan, and formed in a predetermined length to form the positive pressure leakage preventing plate. Static leakage leakage prevention device of an integrated turbo fan, characterized in that it comprises a connecting means for connecting the body and the fixed body. According to claim 1 or 2, wherein the positive pressure leakage preventing plate is a disk having a predetermined width of the inner diameter is smaller than the outer diameter of the integral turbo fan hub and the outer diameter is formed larger than the braid outer diameter of the integral turbo fan. Pressure leakage prevention device of integrated turbofan. The apparatus of claim 2, wherein the static leakage preventing plate, the fixed body, and the connecting means are integrally formed. According to claim 4, wherein the positive pressure leakage preventing plate, the fixed body and the connecting means is formed by a pair of mold outer diameter of the positive pressure leakage preventing plate is formed smaller than the inner diameter of the fixed body and the outer peripheral surface of the positive pressure leakage preventing plate And a connecting means is positioned between the inner circumferential surface of the fixed body. The method of claim 2, wherein the connecting means is formed to have a predetermined length, one side of which is coupled to the positive pressure leakage preventing plate and the other side is coupled to the fixed body is provided with one or more numbers Pressure leakage prevention device of integrated turbofan.