KR0177717B1 - Elliptical condenser - Google Patents

Abstract

The present invention relates to a forced blow condenser, in particular, in the step of transferring the air flow generated by the blower to the condenser, the air flow is directly transferred to change the shape of the condenser so that the condenser is formed in the area where the forced blow heat exchange is actively performed, It is provided with a fixing means.

Description

Oval condenser

1 is a conventional condenser,

(a) is a schematic diagram.

(b) is the blowing distribution diagram in the condenser by the blower.

2 is a block diagram of an elliptical condenser of the present invention.

3 is a block diagram of another embodiment of the elliptical condenser of the present invention.

* Explanation of symbols for main parts of the drawings

101, 101 ': corrugated plate 102, 102': flat tube

103, 103 ': connector 104, 104': outlet

105, 105 ': shock absorber 106, 106': blower

107, 107 ': hole 108, 108': bracket

109, 109 ': Bolt

The present invention relates to a forced blow condenser, in particular, in the step in which the air flow generated in the blower is transferred to the condenser, the air flow is directly transferred to change the shape of the condenser so that the condenser is formed in the region where forced blow air exchange is actively performed. .

The conventional condenser is formed in the first head pipe (3) provided with the diaphragm (2), the inlet (1) through which the refrigerant flows, as shown in FIG. 1 (a), and the first head pipe (3) A plurality of flat tubes 5 connected between the two head pipes 4 through which the refrigerant passes are formed between the corrugated plates 6, and an outlet 7 through which the refrigerant passing through the flat tubes 5 is discharged. It was formed in the second head pipe (4), and formed of a support plate (8) for supporting the first and second head pipes (3), (4).

And it was provided with the blower 9 which produces air flow.

In such a configuration, the refrigerant introduced into the first head pipe 3 through the inlet 1 is connected to the first head pipe 3 by a diaphragm 2 formed inside the first head pipe 3. The refrigerant passing through the flat pipe (5) and passing through the flat tube (5) reaches the second flat tube (4) and flows again by the diaphragm (2) formed in the second head pipe (5). Passing through the flat tube (5), the refrigerant passing through the flat tube (5) is introduced into the first head pipe (3) in a sequential circulation is formed through the outlet 7 formed in the second head pipe (4) To be discharged.

While circulating in this step, the heat exchange was achieved by the corrugated plate 6 formed between the flat tubes 5 and the air flow generated in the blower 9.

However, the conventional condenser configured and circulated as described above is directly connected to the generated air flow in a step in which the air flow forced by the blower 9 is blown to the heat exchanger to form heat exchange, as shown in FIG. The area B part where active heat exchange is not performed by contact exists.

That is, since the condenser used in the related art is formed in a rectangular shape, there is a zone that does not immediately receive a circular distribution-type air flow transmitted from the blower 9, and this zone has efficient convective heat transfer. There is a problem that cannot be supported.

Therefore, such inefficient heat transfer causes a decrease in the condensation capacity of the heat exchanger, and consequently, there is a problem of increasing power consumption of the refrigerator.

The present invention has been invented in view of the above problems, so that the installation shape of the flat tube through which the refrigerant passes is formed in a scroll type while forming an overall oval shape so as to be suitable for the air flow of the circular distribution form generated in the blower. The purpose is to improve heat exchange efficiency and consequently to reduce power consumption.

The elliptical condenser of the present invention will be described with reference to FIG.

Wrinkled in a layer together with the corrugated plate 101, the flat tube 102 through which the refrigerant is passed, a connecting tube 1 (03) connected to one side of the flat tube 102, and is connected to one side of the connecting tube 103 A discharge port 104 for discharging the refrigerant and a buffer port 105 for preventing damage to the connection pipe 103 connected to the discharge port 104 are provided, and a blower 106 for generating air flow is provided.

In addition, a bracket 108 for supporting the condenser, a hole 107 formed in the bracket 108, and a bolt 109 inserted into the hole 107 and having a fixing force as a means for fixing the condenser to the refrigerator. Equipped.

In this configuration, the condenser fixed to the machine room of the refrigerator has a flat tube (refrigerant passing through the cross section 100 of the flat tube 102 circulating inside the flat tube 102 installed in a spiral shape in an elliptical shape. The heat exchange is circulated through the corrugated plate 101 formed between the 102 and the air flow generated by the blower 106 and discharged through the outlet 104 through the connecting pipe 103.

That is, in the step of performing heat exchange by the air flow generated in the blower 106, the flat tube 102 formed in the overall elliptical shape is to distribute the air flow evenly distributed over the entire area to improve the heat exchange efficiency. .

Another embodiment of the present invention will be described with reference to FIG.

A flat tube 102 'for forming a corrugated plate 101' therebetween and allowing a refrigerant to pass therethrough, a connecting tube 103 'connected to one side of the flat tube 102', and the connecting tube 103 '. A discharge port 104 'connected to one side of the discharge port 104' and a buffer port 105 'for preventing damage to the connection pipe 103' connected to the discharge port 104 ', and having an airflow fan. (106 ').

In addition, a bracket 108 'surrounding the side of the condenser as a means for fixing the condenser to the refrigerator, a hole 107' formed in the bracket 108 ', and a hole 107' is inserted into the hole 107 'to have a fixing force. A bolt 109 'was provided.

In this configuration, the condenser fixed to the machine room of the refrigerator is circulated inside the flat tube 102 'of the laminated tube having a cross section 100' of the flat tube 102 'to form a generally elliptical flat tube ( 102 ') is a process in which heat is exchanged by the air flow generated in the corrugated plate 101' and the blower 106 'and is discharged through the outlet 104' through the connecting pipe 103 '. Circulated.

That is, in the step of exchanging heat by the air flow generated in the blower 106 ', the air flow of even distribution in the entire area is provided in the serpentine type flat tube 102' formed in an overall elliptical shape. This distribution can improve heat exchange efficiency.

As described in detail above, the elliptical condenser of the present invention is formed in an elliptical shape so that the overall installation shape of the flat tube through which the refrigerant passes is suitable for the air flow in the form of a circular distribution generated in the blower, thereby improving the heat exchange efficiency of the condenser, thereby increasing the efficiency of the condenser. This high efficiency condenser can reduce the size of the condenser itself, and facilitate the installation by reducing the size, and consequently reduce the power consumption of the compressor by reducing the size of the condenser. It is a useful invention.

Claims (2)

A condenser for forming an elliptical scroll type flat tube that forms a corrugated plate and passes heat through the refrigerant, a bracket for supporting the flat tube, a hole formed in the bracket, and a hole in the hole. Elliptical condenser characterized in that it comprises a bolt for inserting and fixing the bracket to the body of the refrigerator to support the condenser. The flat tube is an elliptical condenser, characterized in that the oval is provided in the serpentine type (Serpentine type).