CN104515415A - Sleeve type radiator - Google Patents

Abstract

The invention provides a sleeve type radiator. The sleeve type radiator is characterized in that a radiating sleeve is formed by inserting an inner pipe into an outer pipe; two ends of the inner pipe are opened; the bottom end of the outer pipe is sealed; a connector is formed in the other end of the outer pipe; a radiating water tank is connected with a water pump; the water pump is connected with the inner pipe of a radiating sleeve inserted into the soil; high-temperature water in the radiating water tank is pumped into the radiating sleeve through the water pump to disperse heat into the soil; in addition, the radiating sleeve is of a special structure that the inner pipe is positioned in the outer pipe, so that the radiating sleeve can be conveniently inserted into the soil during construction. The sleeve type radiator is simple in structure, low in cost and high in practicability.

Description

Casing radiator

Technical field

The present invention relates to a kind of radiator, the radiator of particularly generating set cooling.

Background technology

The high temperature of heat-producing device can not dissipate and will heat up, and being warmed up to a certain degree can burning apparatus, or reduces the life-span; So heat-producing device all needs heat radiation; The effect of radiator is exactly to be taken away from heat-producing device by heat in time, and the mode increasing heat radiation expands area of dissipation exactly and increases thermal conductivity; With regard to fin material, often kind of its heat conductivility of material is different, arranges from high to low by heat conductivility, is silver respectively, copper, aluminium, steel.Can be too expensive if but make fin with silver, therefore best scheme is copper for adopting.Although aluminium considerably cheaper, obviously thermal conductivity is just not as copper good (approximately only having about 50% of copper).Fin material conventional is at present copper and aluminium alloy, and the two respectively has its pluses and minuses.The thermal conductivity of copper is good, but price is more expensive, and difficulty of processing is higher, and weight is excessive, and thermal capacity is less, and is easily oxidized.And fine aluminium is too soft, can not directly use, the general aluminium alloy used just can provide enough hardness, and the advantage of aluminium alloy is cheap, lightweight, but thermal conductivity will be far short of what is expected than copper.Some radiator just respectively gets the chief, and aluminium alloy heat radiator base embeds a slice copper coin.Radiator in the water-cooling system of generating set is generally made up of intake chamber, water-supplying chamber, main leaf and radiator core three part.Cooling fluid flows in radiator core, and air passes through outside radiator core.The cooling fluid of heat is owing to turning cold to air heat radiation, and cold air then heats up, so radiator is a heat exchanger because absorbing the heat that sheds of cooling fluid.But the radiator that existing generating set uses, when generating set needs to distribute amount of heat, the radiating rate of radiator is slow, often makes generating set overheated.And generating set and radiator are generally positioned at basement, the heat that radiator is discharged concentrates in basement, and make underground indoor temperature very high, of long duration, the radiating effect of radiator is also bad.

 

Summary of the invention

In order to improve the heat dispersion of radiator that existing generating set uses, the invention provides a kind of casing radiator, it adopts brand-new radiating mode, is distributed by heat in soil, environmental protection and structure is simpler, and it is easier to manufacture.

The technical solution adopted for the present invention to solve the technical problems is: casing radiator comprises cooling water tank, water pump and heat radiation sleeve pipe, heat radiation sleeve pipe is inserted in outer tube by interior pipe and forms, interior pipe both ends open, the bottom end seal of outer tube, the other end of outer tube is provided with connector, and cooling water tank is connected with water pump, and water pump is managed be connected with in heat radiation sleeve pipe, the heat radiation outer tube of sleeve pipe is connected with the bottom of cooling water tank, and heat radiation sleeve pipe inserts in underground.

A kind of prioritization scheme of such scheme is: the water inlet of described water pump is positioned at the top of cooling water tank.

The another kind of prioritization scheme of such scheme is: described heat radiation sleeve pipe is made up of coating steel pipe.

The present invention realizes its object like this: the heat of generating set is passed in cooling water tank by water circulating pipe, the high-temperature water suction on its top is dispelled the heat in sleeve pipe by water pump by cooling water tank, the heat of high-temperature water is distributed to underground by heat radiation sleeve pipe, and high-temperature water temperature after underground radiation reduces the bottom being back to cooling water tank; Cyclically the high-temperature water on cooling water tank top is become the water at low temperature of water tank bottom thus through underground radiation, reduce the temperature of cooling water tank entirety; Heat radiation sleeve pipe plays and flows in underground by high-temperature water, again the water after cooling is back to the effect bottom cooling water tank, the special construction of pipe in heat radiation sleeve pipe adopts in outer tube and places, as long as make to hole in underground, insert in the hole of soil by heat radiation sleeve pipe, the mode inserting soil than general radiating tube is simple many.

The invention has the beneficial effects as follows: the high-temperature water of cooling water tank middle and upper part is dispelled the heat in heat radiation sleeve pipe underground, become the water at low temperature bottom cooling water tank again, constantly cyclically the heat in water tank is distributed in underground thus, underground is as huge heat absorption container, be easy to the heat receiving generating set, and the special construction of pipe in the sleeve pipe that dispels the heat adopts in outer tube and places, the sleeve pipe that will dispel the heat during convenient construction inserts in underground, structure of the present invention is simple, cost is low, the heat that Generator Set is discharged can be distributed, practical.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the present invention is further described.

Fig. 1 is structure principle chart of the present invention.

1. cooling water tanks, 2. water pump in figure, 3. dispel the heat sleeve pipe, pipe in 3-1., 3-2. outer tube, 4. underground.

Detailed description of the invention

In FIG, casing radiator comprises cooling water tank 1, water pump 2 and heat radiation sleeve pipe 3, heat radiation sleeve pipe 3 is inserted in outer tube 3-2 by interior pipe 3-1 and forms, interior pipe 3-1 and outer tube 3-2 is made up of coating steel pipe, interior pipe 3-1 both ends open, the bottom end seal of outer tube 3-2, the other end of outer tube 3-2 is provided with connector, the top of cooling water tank 1 is connected with water pump 2, water pump 2 is connected with pipe 3-1 in heat radiation sleeve pipe 3, the outer tube 3-2 of heat radiation sleeve pipe 3 is connected with the bottom of cooling water tank 1, and heat radiation sleeve pipe 3 inserts in underground 4.

Claims (3)

1. a casing radiator, it is characterized in that: it comprises cooling water tank, water pump and heat radiation sleeve pipe, heat radiation sleeve pipe is inserted in outer tube by interior pipe and forms, interior pipe both ends open, the bottom end seal of outer tube, the other end of outer tube is provided with connector, cooling water tank is connected with water pump, water pump manage be connected with in heat radiation sleeve pipe, and the heat radiation outer tube of sleeve pipe is connected with the bottom of cooling water tank, dispels the heat in sleeve pipe insertion underground.

2. casing radiator according to claim 1, is characterized in that: the water inlet of described water pump is positioned at the top of cooling water tank.

3. casing radiator according to claim 1, is characterized in that: described heat radiation sleeve pipe is made up of coating steel pipe.