CN201311227Y - Cooling fin of air cooler - Google Patents

Abstract

The utility model provides an air-cooler radiating fin, belongs to the supporting parts technical field of air conditioner, warm logical equipment, mainly by lamellar body (4), the interval sets up concave convex rib structure radiating fin (5) and tube hole (1) etc. on lamellar body (4) and constitute, tube hole (1) are two turn-ups (6) structures, and lamellar body (4) are all around for ripple limit (7) structure. Reasonable in design, the muddy degree of flow of multiplicable intensity and air inlet increases heat radiating area moreover, improves the radiating effect. Meanwhile, the device can prevent the blockage from being easily caused in an environment with much dust and is easy to clean.

Description

A kind of air-cooler radiating fin

Technical field

The utility model relates to a kind of air-cooler radiating fin, belongs to the matching component technical field of air-conditioning, heating and ventilating equipment.

Background technology

Radiating fin on existing air-cooler, the condenser is generally structure shown in attached Fig. 1 and 2, fenestration reinforcement heat radiation wing 2 and pore 1 are set on lamellar body 4 at interval, and pore 1 is single flange 3 structures, though have advantages such as in light weight, that heat-transfer effect is good, but fenestration reinforcement heat radiation wing is at environment savings dust easily under the condition of severe relatively, and easy cleaning not.

Summary of the invention

The purpose of this utility model provides a kind of reasonable in design, the air-cooler radiating fin that heat-transfer effect is good.

The utility model is a kind of air-cooler radiating fin, comprises lamellar body, is arranged at intervals at heat radiation wing and pore on the lamellar body, and the wing that it is characterized in that dispelling the heat is concavo-convex muscle structure, and pore is the double-turnup structure.

Can be ripple limit structure around the described lamellar body.

The utility model is compared in prior art, has following outstanding advantage and good effect:

1, adopts concavo-convex muscle heat radiation wing, can gain in strength and the turbid flow degree of air intake, and increase area of dissipation, improve radiating effect.Also can prevent simultaneously under dusty environment, to be difficult for stopping up, and clean easily.

2, pore adopts the double-turnup structure, is difficult for breaking when rising by pipe, also increases heat-transfer effect simultaneously.

3, the ripple limit structure around the lamellar body also can further increase the turbid flow degree of air intake, improves radiating effect.

Description of drawings

Fig. 1 is the overall structure schematic diagram of existing fenestration aluminium fin;

Fig. 2 is a B-B face structure cutaway view shown in Figure 1;

Fig. 3 is an overall structure schematic diagram of the present utility model;

Fig. 4 is an A-A face structure cutaway view shown in Figure 3.

The specific embodiment

The utility model is mainly by lamellar body 4, is arranged at intervals at formations such as concavo-convex muscle structure heat radiation wing 5 on the lamellar body 4 and pore 1, and pore 1 be double-turnup 6 structures, and lamellar body 4 is ripple limit 7 structures all around.

Claims (2)

1, a kind of air-cooler radiating fin comprises lamellar body (4), is arranged at intervals at heat radiation wing (5) and pore (1) on the lamellar body (4), and the wing (5) that it is characterized in that dispelling the heat is concavo-convex muscle structure, and pore (1) is double-turnup (a 6) structure.

2,, it is characterized in that described lamellar body (4) is ripple limit (7) structure all around by the described a kind of air-cooler radiating fin of claim 1.

Images