CN2478063Y - Fin hollowed aluminium alloy energy saving radiator - Google Patents

Abstract

The utility model relates to a fin hollowed type aluminum alloy energy saving radiator. Heat radiating elements on the column tubes have the fin hollowed type structure. In a multicavity type radiator, adjacent column tubes are inserted and connected, and the column tubes are positioned in the middle of four convective cavities. In a communicated cavity type radiator, the column tubes are positioned in the middle of a communicated cavity. After the radiator is heated, the air convectively flows in a heat radiating cavity. The utility model has strong convective function, large heat radiating area and correspondingly enhanced radiation and conduction function. The utility model has the advantages of high thermal efficiency, small size, light weight and beautiful appearance.

Description

A kind of fin hollowed type aluminium alloy energy-saving radiator

The utility model belongs to the design and the manufacturing technology field of aluminium radiator.It is mainly used in indoor heating.

At present, the aluminium alloy heat radiator agent structure of producing both at home and abroad is roughly the same.Promptly form by the fin that links case pipe, column jecket and be contained on the column jecket.The producer that has is ornamental for the hot merit that improves radiator can and increase, and fin is carried out all improvement, and the post airfoil structure that has formed based on wing plate structure and groove structure is the development trend of feature.But its hot merit can be all not satisfactory.Tracing it to its cause is, above-mentioned radiator can only partly improve its width of cloth and penetrate function, and convection function changes little.And according to the Pyrology principle, the thermal efficiency of radiator (area of dissipation, heat dissipation capacity) depends mainly on the convection function of radiator.For this reason, it is jacket type that the producer that has has developed hollow type (inside is overlapped a pipe for hollow pipe again as convection tube, outside).Logical hot water is intended to improve convection function in the chuck.But limited because of the chuck spacing, so the convection current performance improves little.And its production technology is also more loaded down with trivial details.

The purpose of this utility model is that a kind of fin hollowed type aluminium alloy energy-saving radiator is provided.

The utility model is achieved by the following technical solution:

The radiating mode of radiator has three: i.e. convection current, conduction and the width of cloth are penetrated.

The decision of Pyrology principle, the height of the thermal efficiency of radiator (area of dissipation, heat dissipation capacity) depends primarily on its convection function.Studies show that: 70 of the about face branch of the thermal efficiency of radiator depends on convection function.Conduction, the width of cloth are penetrated function and are in backseat.For this reason, the utility model is put forth effort on the convection function of improving and improving radiator, and convection function depends on the planform of radiator.Therefore on the basis of radiator existing structure, carry out key improvement.The concrete practice is:

Radiator is formed by case pipe, column jecket and fin.For reaching the purpose that improves convection efficiency, the chamber of making flat fin into fin hollowed type, i.e. cross-ventilation chamber.The utility model is divided into multi-cavity type and lumen type, and the two common trait is that column jecket is positioned at the center.Therefore, the radiator convection function and the thermal efficiency increase substantially.

Specify below in conjunction with the position and the connected mode of accompanying drawing planform of the present utility model, each element.

Fig. 1 is a multi-cavity shape heat spreader structures schematic diagram in the utility model

Fig. 2 is the side view of Fig. 1

Fig. 3 is the A-A profile of Fig. 1

Fig. 4 is a multi-cavity shape radiator stereogram

Fig. 5 is a cavity shape radiator transverse cross-sectional view in the utility model

1-links case pipe 2-column jecket 3-fan-shaped chamber 4-flat thread mouth 5-combination rectangular cavity 6-interface 7-column jecket 8-swallow-wing plate 9-plug-in mounting connecting plate 10-combination cavity

The utility model divides multi-cavity type and lumen type, total fin hollowed type that is called.Existing division is as follows:

Multi-cavity type, be communicated with and be welded on two link between the case pipes 1, cross section that column jecket 2 front and back of extrusion modling have two symmetries is fan-shaped fan-shaped chamber 3.Per three column jeckets 2 are one group, peg graft through interface 6 in fan-shaped chamber 3, the front and back of adjacent two column jeckets 2.Also peg graft through plug-in mounting connecting plate 9 in the fan-shaped chamber 3 of adjacent two column jeckets 2, inserting mode as shown in Figure 5.About column jecket 2, constituted combination rectangular cavity 5 after pegging graft.Add former and later two original fan-shaped chambeies 3, make column jecket 2 be in the centre in four convection current chambeies.The flat thread mouth 4 of interior tool screw thread is equipped with at the two ends that link case pipe 1, so that connect with the pipeline of identical caliber.The outside is the arch facade group of marshalling before and after the radiator.

Lumen type, there is the swallow-wing plate 8 of mutual symmetry column jecket 7 front and back, and the swallow-wing plate 8 of adjacent two column jeckets 7 is pegged graft through plug-in mounting connecting plate 9.The swallow-wing plate 8 of adjacent two column jeckets 7 can directly be pegged graft, and its inserting mode as shown in Figure 3.After the grafting, column jecket about 7 constitutes combination cavity 10.

Radiating mode of the present utility model is based on convection current, and the conduction width of cloth is penetrated function also raising.This radiator is heating agent with hot water, and when in the radiator hot water flow being arranged, Cryogenic air enters from bottom, fin hollowed type convection current chamber, and high temperature air flows out from top, carries out convection current.Thermal efficiency height.Simultaneously, fin hollowed type convection current chamber is compared with flat fin, increased considerably the width of cloth and penetrated area, so the width of cloth penetrates function and also improves a lot, and conduction function also has corresponding raising.

The utility model material is an aluminium alloy.The phosphatization of material is handled, the preservative treatment of product, and integral production technology, is all undertaken by standard.

The product calorific intensity can reach 2.8W/Kg ℃, operating pressure 0.8Mpa, product accord with Q/YGS001-2000 standard.

The utility model has the advantages that, thermal efficiency height, in light weight, withstand voltage height, handsome in appearance.

Claims (4)

1, a kind of fin hollowed type aluminium alloy energy-saving radiator is made up of the heat dissipation element that links on case pipe, column jecket and the column jecket, it is characterized in that it is fin hollowed type convection current chamber that column jecket (2) is gone up heat dissipation element,

Be communicated with and be welded on two link between the case pipes (1), to have cross section be fan-shaped fan-shaped chamber (3) in front and back, peg graft through interface (6) in the fan-shaped chamber (3) of adjacent two column jeckets (2), about column jecket (2), constitute combination rectangular cavity (5), be before and after the column jecket (2) for fan-shaped chamber (3), about be combination rectangular cavity (5), the flat thread mouth (4) of tool screw thread in be equipped with at the two ends that link case pipe (1).

2, require 1 described radiator as requested, it is characterized in that there is the swallow-wing plate (8) of mutual symmetry column jecket (7) front and back, the swallow-wing plate (8) of adjacent two column jeckets (7) is pegged graft through socket connection plate (9), constitutes combination cavity (10) about column jecket (7).

3, the described radiator of claim 1 is characterized in that pegging graft through plug-in mounting connecting plate (9) in the fan-shaped chamber (3) of adjacent two column jeckets (2).

4, radiator according to claim 1 is characterized in that directly grafting of column jecket (7) front and back swallow-wing plates (8).

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