CN2407319Y - Stainless steel corrugated rib heat radiator - Google Patents

Abstract

The utility model relates to a stainless steel radiator with a corrugated fin. The utility model has the advantages of enlarged heat radiating area, increased heat strength coefficient, and no pollution on a heat source. In the utility model, the inner part of a heat radiating pipe in which heat source fluid flows becomes a corrugated body which forms a neighboring concave and convex annular shape. A thin aluminium heat radiating plate is tightly hooped on a corrugated energy saving heat pipe made of stainless steel. The radiator which is decorated by a face mask plate for forming chimney effect has the advantages of fast heat radiation and beautiful appearance.

Description

Stainless steel node fin radiator

The utility model relates to the stainless steel node fin radiator of heating of house.

Radiator in cold season as heating of house will be by supplying heat source by the road, heat source fluid delivered to huge numbers of families' radiator, through returning supplying heat source again after the circulation.Because of heat energy is passed to low temperature by high temperature, hot water that supplying heat source is carried or steam are realized the transmission of heat energy by three kinds of heat transfer types of " heat conduction, convection current and heat radiation " in the radiator cyclic process, make indoor living environment reach the needed temperature of people.At present, the form of interior radiator generally adopts carbon steel or castiron, carbon steel is divided into finned or sheet string type, finned body weight, the internal incrustation corrosion, exist the space to produce thermal resistance between the heat pipe of sheet string type and the string sheet, heat pipe internal incrustation and corrosion, cast-iron radiator wall thickness body weight is formed counterpart place leakiness by multi-disc, and trouble is installed, carbon steel and cast-iron radiator all increase because of the prolongation thermal resistance of service time, heat-sinking capability also claims thermal conductivity factor to reduce, and the water quality of supplying heat source is polluted.

The purpose of this utility model is to overcome the shortcoming that exists in the above-mentioned present technology, and a kind of increase area of dissipation is provided, and improves the calorific intensity coefficient, the stainless steel node fin radiator of withstand voltage height, pollution-free thermal source.

The purpose of this utility model is achieved in that radiating tube is welded with wall thickness 0.4-0.8mm stainless steel tube and stainless steel wire head and stainless steel bend, some wall thickness 0.2-0.5mm thin aluminum sheets of string cover on stainless steel tube, piercing and flanging in the middle of the thin aluminum sheet, internal diameter is identical with the stainless steel tube external diameter, the physical dimension of thin aluminum sheet is decided according to the radical and the heat dissipation capacity size of radiating tube, behind the thin aluminum sheet string cover, use Polyurethane rubber membrane piece with stainless steel tube inside again, rise into adjacent recessed, convex hoop shape shape bellows tube, make the thin aluminum sheet lock ring on stainless steel node radiating tube, thereby eliminated the space thermal resistance, the carbon element steel radiator series tablet thermal efficiency is low at present, the reason that the calorific intensity coefficient is low is the fouling of radiating tube wall thickness and with the string sheet space is arranged that the utility model improves from these two aspects exactly, reaches to realize this purpose.

The utility model is compared with above-mentioned present technology has following effect, because of present water scarcity, radiating tube adopts stainless steel material not pollute the heat supply water source, stainless steel wave pipe joint and the thin aluminum sheet string identical area of dissipation calorific intensity coefficient in light weight height that is nested together, Q=W/G, Q-calorific intensity coefficient in the formula, W-heat dissipation capacity, G-heatsink mass.

The stainless steel wave pipe joint is a blow-up again behind the string cover thin aluminum sheet, has eliminated the space between stainless steel tube and the aluminium sheet, and the thermal conductivity ratio carbon steel of aluminium sheet is big, thereby has improved radiating efficiency, and the stainless steel wave pipe joint is corrosion-resistant, and it is than carbon steel radiator long service life.The utility model adopts the colored steel face shield, and it is more aesthetic in appearance than other radiator, and produces the stack effect rapid heat dissipation.

Accompanying drawing is a diagrammatic sketch of the present utility model

Below in conjunction with accompanying drawing the utility model is further described:

Fig. 1 is an axonometric drawing of the present utility model

Fig. 2 is the single tube sectional structure chart of the utility model radiating tube

Among the figure: 1 thermal source inflow radiator silk, 2 a mask plate hold-down screw

3 thin aluminium heat sink 4 stainless steel node radiating tubes

5 install hook 6 fixed visors inner reinforced plates

7 stainless steel bends, 8 thermals source flow out radiator silk head

9 mask plates

In Fig. 1, thermal source flows to radiator silk head (1), through stainless steel node radiating tube (4), stainless steel bend (7), through stainless steel node radiating tube (4), flow out radiator silk head (8) again, mask plate (9) mask plate hold-down screw (2), be fastened on the fixed visors inner reinforced plate (6), hook (5) be installed be connected on the fixed visors inner reinforced plate (6).

In Fig. 2, wall thickness 0.2-0.5mm approaches aluminium heat sink (3), wall thickness 0.5-0.8mm stainless steel fixed visors inner reinforced plate (6) is not having welding wire head (1) (8) before, string is enclosed within on the stainless steel tube, in interior extruding blow-up, make the corrugated body that forms adjacent concavo-convex ring-type shape in the pipe promptly become stainless steel wave joint radiating tube (4) with Polyurethane rubber membrane piece.

Claims (3)

1. stainless steel node fin radiator that is used for heating of house, it is characterized in that: welded together with stainless steel wire head (1) (8) wall thickness 0.4-0.8mm stainless steel node radiating tube (4) stainless steel bend (7), the thin aluminium heat sink (3) of string cover wall thickness 0.3-0.5mm adds the radiator that mask plate (9) consists of one.

2. radiator according to claim 1 is characterized in that: can adopt wall thickness is 0.4-0.8mm stainless steel node radiating tube (4), and inside pipe wall forms adjacent recessed, the corrugated body of convex hoop shape.

3. radiator according to claim 1 is characterized in that: can adopt thin aluminium heat sink (3) of wall thickness 0.2-0.5mm and stainless steel node radiating tube (4).String cover place wants flange, and internal diameter is identical with node radiating tube external diameter, carries out the node blow-up behind the string cover, makes thin aluminium heat sink lock ring on bellows tube.