KR200253514Y1 - air cooled type condensor using fan - Google Patents

Abstract

An air-cooled condenser using the structure of a blower fan is disclosed.

The present invention forms a primary condensation tube alternately installed on the inner circumferential surface of the blower fan installed for heat exchange of the condenser by connecting the high pressure pipe discharged from the compressor to the condenser to connect the condenser to the refrigerant. Cooling will reduce the condenser load on the condenser.

Description

Air cooled type condensor using fan structure of blower fan

The present invention relates to an air-cooled condenser installed in an air conditioning facility such as an air conditioner and an air conditioner, and in particular, a blower fan structure that can improve the condensation efficiency by enabling the primary condensation using the blower fan structure. It relates to an air-cooled condenser.

In general, condensers are classified into air-cooled and water-cooled, and these are all packaged to concentrate condensate at a high temperature and high pressure refrigerant. This concentrated condensation makes it difficult to achieve even condensation efficiency across the condenser. That is, some parts may be condensed, but some may not be satisfactory or may not be condensed at all. In addition, when the cooling load is high, the condensation efficiency is further lowered.

The present invention aims to improve the condensation efficiency by reducing the condensation load of the condenser by primarily cooling the refrigerant discharged from the compressor to the condenser.

1 is a schematic cross-sectional view of the installation state of the present invention embodiment

2 is an exploded perspective view of the present invention embodiment

3 is a front view of the inside of the blower fan of the present invention embodiment

Technical features for achieving the intended purpose of the present invention is to form a first condensation tube alternately installed on the inner circumferential surface of the blower fan is installed for heat exchange of the condenser high pressure pipe discharged from the compressor to the condenser To be connected.

Next, embodiments of the present invention will be described with reference to the accompanying drawings.

The accompanying drawings show an example of a condensation system to which the present invention is applied to describe embodiments of the present invention, and various modifications may be made without departing from the technical spirit of the present invention.

FIG. 1 shows an air-cooled condenser in which one blowing fan 2 and 3 are respectively provided on the left and right sides of the condenser 1, and an exhaust blower fan 4 is installed in the upper portion thereof.

Here, the inlet pipe of the condenser is connected to the discharge side pipe 5 of the compressor as in a known structure, and the discharge side pipe 5 is a blower fan installed on the side of the condenser 1 before being connected to the condenser 1. The primary condensation tube 7 passes through the case 6 in 2) and is then connected to the condenser 1.

The blowing fan 2 is configured in the form of a sirocco fan, and is composed of a case 6, a motor 20, and a vane 21 as in a known configuration.

2 shows the installation state of the primary condensation tube 7 in the blowing fan 2 more specifically.

The primary condensation tube 7 is first formed in a U-shape coil shape so as not to generate air resistance in the discharge hole 8 of the blower 2, and is seated along the inner circumferential surface of the case 6. It is connected to the discharge side pipe 5 through the vertical wall surface 11, and the other end 10 penetrates the vertical wall surface 12 opposite to the vertical wall surface 11, and the pipe at the inlet of the condenser 1 ( 13).

3 shows a state in which the primary condensation tube 7 is installed inside the casing 6 of the blower 2. In this figure, especially, the state in which the cooling fin 14 was formed in the primary condensation tube 7 is shown.

This invention devises a strong blowing force is discharged to the discharge hole (8) while the suction side pressure is generated along the inner circumferential surface of the case (6) when the van (21) rotates, wherein the front space (S1) and the rear space In S2, while a high-speed rotational circulation wind occurs, the primary condensation tube 7 is cooled to condense the refrigerant primarily.

In the above embodiment, the primary condensation tube 7 is described as being installed in the blower 2 installed on the side of the condenser 1, but it is installed in the exhaust blower fan 4 installed at the top as in the general condenser structure. It may be.

The present invention as described above, by first cooling the refrigerant flowing into the condenser in the blower fan and then condensing in the condenser, first, to reduce the condensation load in the condenser, secondly, to reduce the condensation load Therefore, the performance of the overall air conditioner system is improved, and third, there is an effect that can reduce the power required for condensation.

Claims (1)

An air-cooled condenser using the structure of a blower fan, which is connected to the condenser by forming a high-pressure pipe discharged from the compressor and introduced into the condenser to be a primary condensation tube that is alternated to the inner circumferential surface of the blower fan installed for heat exchange of the condenser. .