CN201407740Y - Spraying heat-transferring radiator - Google Patents

Abstract

The utility model provides a spraying heat-transferring radiator, which comprises a water inlet main pipe, a water outlet main pipe, a heat dissipating pipe connected between the water inlet main pipeand the water outlet main pipe, and radiating fins connected on the heat dissipating pipe, wherein the water inlet main pipe is a fog making chamber, at least one atomizer is arranged in the fog making chamber, the atomizer is communicated with a hot water inlet pipe and sprays hot water in a mode of water fog, the water fog is condensed into water and flows into the water main pipe after flowingthrough the heat dissipating pipe for dissipating heat, and the atomizer comprises two oppositely arranged nozzles. The spraying heat-transferring radiator is characterized in that hot water is jetted out and oppositely collided through two nozzles which are oppositely arranged in the atomizer, collision generates a great deal of high temperature water fog for transferring heat, and the radiatorhas the advantages of water saving, copper material saving, rapid temperature rise, energy saving, long service life, and has the humidifying function.

Description

Spray heat transfer radiator

Technical field

The utility model relates to a kind of daily necessities, particularly a kind of spray heat transfer radiator.

Background technology

Radiator is widely used in public places such as house, hospital, school, office building, factory, and it provides heating installation to people in the season of cold, makes that people live under warm environment, study and work.People's quality of life and work quality have been guaranteed.The radiator of prior art generally is that employing hot water is heating agent, and hot water is provided by boiler or water heater usually.Radiator then mainly is made of copper pipe and fin.Common radiating mode is that hot water is flow through from copper pipe, after the copper pipe heating again with the heat transferred fin, again by fin with heat radiation to surrounding space, make the room temperature raising.This mode that heats can be referred to as " the pouring-in heat transfer of hot water ".Corresponding radiator can be referred to as " hot water injection heat transfer radiator ".Present widely used radiator, no matter its outward appearance, how style changes, and in fact all is " hot water injection heat transfer radiator ".This " hot water injection heat transfer radiator " continued to use over one hundred year, and people are accustomed to.In fact from aspects such as energy-conservation, manufacture craft and consumptive materials, there is water consumption in this " hot water injection heat transfer radiator ", and (must be full of water in the pipeline just can make water flow greatly, otherwise become " stagnant water "), consumed energy is big, it is slow to heat up, complex manufacturing technology (pad is many, is easy to generate drainage), consume problems such as copper pipe is many.

The utility model content

The purpose of this utility model in order to overcome the defective that above-mentioned prior art exists, provides a kind of spray heat transfer radiator exactly.

The technical solution of the utility model is: a kind of spray heat transfer radiator, comprise water inlet manifold, outfall sewer, be connected the radiating tube between water inlet manifold and the outfall sewer and be connected fin on the radiating tube, be characterized in: described water inlet manifold is a spray chamber, be provided with at least one sprayer in the spray chamber, this sprayer is communicated with the hot water inlet pipe hot water is emitted into water smoke, spray stream is condensed into water and flows into outfall sewer after the radiating tube heat radiation, described sprayer comprises two opposite nozzles.

Described sprayer is two, and two sprayers are arranged side by side in spray chamber and are in parallel with the hot water inlet pipe.

Described spray chamber comprises chamber body and chamber cap, and the chamber body links to each other with chamber cap is nested, and the bottom of chamber body is provided with many water smoke fairleads and is used for inserting respectively each radiating tube, and chamber cap is provided with the air humidification hole, and is provided with mobile port lid.

Distance between described two opposite nozzles is 0.1-8mm.

The integral structure component that described radiating tube and connection fin thereon are formed in one.

Spray heat transfer radiator of the present utility model penetrates head-on collision with hot water by two nozzles that are oppositely arranged in the sprayer, impacting a large amount of high temperature water smokes of generation conducts heat, have water-saving, economize copper pipe, the advantage of quick heating, energy-conservation and long service life, and have wet function.

Description of drawings

Fig. 1 is the basic structure schematic diagram of the utility model spray heat transfer radiator;

Fig. 2 is the structural representation of the spray chamber in the utility model;

Fig. 3 is the plan structure schematic diagram of the spray chamber in the utility model.

The specific embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.

Referring to Fig. 1, Fig. 2, Fig. 3, spray heat transfer radiator of the present utility model comprises water inlet manifold, outfall sewer 2, is connected the radiating tube 3 between water inlet manifold and the outfall sewer and is connected fin on the radiating tube (not shown come out).The integral structure component that radiating tube 3 wherein and connection fin thereon are formed in one.Water inlet manifold is a spray chamber 1, is provided with in the spray chamber 1 that 4, two sprayers 4 of two sprayers are arranged side by side in spray chamber and in parallel with hot water inlet pipe 5.Sprayer 4 is emitted into water smoke with hot water, and spray stream is condensed into the globule and enters outfall sewer 2 after radiating tube 3 heat radiations.

The distance that sprayer 4 in the utility model comprises between 41, two opposite nozzles 41 of two opposite nozzles is 0.1-8mm.

Spray chamber 1 in the utility model comprises chamber body 11 and chamber cap 12, and the chamber body links to each other with chamber cap is nested, and the bottom of chamber body 11 is provided with many water smoke fairleads 13 and is used for inserting respectively each radiating tube, and chamber cap 12 is provided with air humidification hole 14, and is provided with mobile port lid 15.When the room air drying needs humidification, need only open mobile port lid 15, promptly there is fog to emerge from humidification hole 14, can increase the humidity of room air.

The operation principle of spray heat transfer radiator of the present utility model is, when the hot water about 95 ℃ enters sprayer 4 after nozzle 41 ejections, promptly produce the high temperature water smoke about a large amount of 90 ℃, and be diffused into whole spray chamber rapidly, make radiator top at first generate heat (surface temperature can reach about 70 ℃), when water smoke when the inwall of each radiating tube 3 spreads downwards, again with the heat transferred fin, make radiator integral heating.Because the integral structure component that radiating tube and connection fin thereon are formed in one does not have traditional copper pipe to make water channel in the radiator, but directly with the heating of heat transferred fin, therefore, programming rate is faster than traditional radiator.

Claims (5)

1. spray heat transfer radiator, comprise water inlet manifold, outfall sewer, be connected the radiating tube between water inlet manifold and the outfall sewer and be connected fin on the radiating tube, it is characterized in that: described water inlet manifold is a spray chamber, be provided with at least one sprayer in the spray chamber, this sprayer is communicated with the hot water inlet pipe hot water is emitted into water smoke, spray stream is condensed into water and flows into outfall sewer after the radiating tube heat radiation, described sprayer comprises two opposite nozzles.

2. spray heat transfer radiator according to claim 1 is characterized in that: described sprayer is two, and two sprayers are arranged side by side in spray chamber and are in parallel with the hot water inlet pipe.

3. spray heat transfer radiator according to claim 1, it is characterized in that: described spray chamber comprises chamber body and chamber cap, the chamber body links to each other with chamber cap is nested, the bottom of chamber body is provided with many water smoke fairleads and is used for inserting respectively each radiating tube, chamber cap is provided with the air humidification hole, and is provided with mobile port lid.

4. spray heat transfer radiator according to claim 1 is characterized in that: the distance between described two opposite nozzles is 0.1-8mm.

5. spray heat transfer radiator according to claim 1 is characterized in that: the integral structure component that described radiating tube and connection fin thereon are formed in one.

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