CN106524787A - Fluorine-free radiator section structure - Google Patents

Abstract

The invention discloses a fluorine-free radiator section structure. The fluoride-free radiator section structure comprises two radiator sections which are separated and form an interlayer; runners are formed in the two radiator sections; refrigerant inlets of the two runners are formed on the two radiator sections, respectively; refrigerant outlets of the two runners are formed under the two radiator section, respectively; and a refrigerant flows into the two radiator sections from the refrigerant inlets, respectively, and converge again at the refrigerant outlets to flow out. The fluorine-free radiator sections use two runners, that is, two radiator sections are used to dissipate heat, so that the heat dissipating quantity is increased, hot gas further flows from the lower to the upper part to form convection as vertically upward heat dissipating surface is formed in the interlayer between the two radiator sections, and the radiating and heat dissipating efficiency is guaranteed by virtue of the chimney effect. The fluorine-free radiator section structure disclosed by the invention is used in the field of heat dissipaters.

Description

A kind of floride-free heating sheet structure

Technical field

The present invention relates to radiator field, more particularly to a kind of floride-free heating sheet structure.

Background technology

Free-floride floor heating at present, radiator are favored by many users by its Efficiency at Low Temperature is good, in order to further lift free-floride The thermal radiation effect of radiator, some producers are proposed and realize stack effect so as to further carry using chimney structure radiator Rise heat exchange efficiency；But by it was verified that still there is problems with existing chimney structure free-floride radiator：

One is, is transverse design using the runner in the middle of micro-channel heat exchanger inside floride-free radiator, because conventional chimney effect The convection effects that should be realized, steam must flow to top from bottom, and intermediate flow channel transverse design causes steam to be blocked, nothing Method forms convection current upwards, so as to have impact on radiation exothermal effect.

Two are, the micro-channel heat exchanger inside floride-free radiator is not blocked, and steam is easily random and outside between internally Alter, affect the temperature and effect of convection current upwards.

The content of the invention

It is an object of the invention to provide a kind of utilization stack effect improves the floride-free heating sheet structure of radiating efficiency.

The technical solution used in the present invention is：

A kind of floride-free heating sheet structure, including two radiators that are spaced apart and forming interlayer, the inside of two radiators is provided with Runner, the refrigerant import of two runners are separately positioned on the top of two radiators, and the refrigerant exit of two runners is separately positioned on two and warms up The lower section of gas piece, coolant separately flow into the inside of two radiators from refrigerant import and converge again outflow in refrigerant exit.

The improvement of such scheme is further used as, two radiators are spaced apart including two and form the curve conducting strip of interlayer And two heat sinks being separately positioned on the outside of two curve conducting strips, each self-bonding of two runners is arranged on the folder of two curve conducting strips In layer, the inside of radiator is made with passage straight up.

The improvement of such scheme is further used as, the Wave crest and wave trough of each curve conducting strip is plane.

The improvement of such scheme is further used as, each curve conducting strip is aluminium.

The improvement of such scheme is further used as, refrigerant exit and refrigerant import are arranged on the same side.

Be further used as the improvement of such scheme, two runners include some upper strata runners connected with refrigerant import and with Some lower floor's runners of refrigerant exit connection, being provided between each upper strata runner and refrigerant import makes coolant uniform flow enter each upper strata The First Transition passage of runner, is provided with make coolant uniformly flow out each lower floor's runner between each lower floor's runner and refrigerant exit Two transition passages, radiator are provided with the side away from refrigerant exit or refrigerant import and make each upper strata runner with each lower floor's runner The hybrid channel of connection.

The improvement of such scheme is further used as, runner is flat tubulose.

The improvement of such scheme is further used as, some vertical ribs in the interlayer of two radiators, are provided with.

Beneficial effects of the present invention：This floride-free radiator adopts dual channel, i.e., double radiators, is added significantly to radiating Amount, further as the radiating surface on intermediate course one vertical direction of formation of two radiators, is conducive to steam to flow from bottom Convection current is formed to top, the efficiency of heat loss through radiation is ensure that using stack effect.

Description of the drawings

The invention will be further described below in conjunction with the accompanying drawings：

Fig. 1 is the overall diagram of the present embodiment；

Fig. 2 is the refrigerant import enlarged drawing of the present embodiment；

Fig. 3 is that the runner of the present embodiment moves towards schematic diagram.

Specific embodiment

With reference to Fig. 1～Fig. 3, the present invention is a kind of floride-free heating sheet structure, including two heating installation for being spaced apart and being formed interlayer Piece 1, the inside of two radiators 1 are provided with runner 7, and the refrigerant import 3 of two runners 7 sets puts respectively in the top of two radiators 1, The refrigerant exit 2 of two runners 7 is separately positioned on the lower section of two radiators 1, and coolant separately flows into two radiators 1 from refrigerant import 3 Inside and converge again outflow in refrigerant exit 2.

This floride-free heating sheet structure is radiated simultaneously using double flowing tube, increased heat-sinking capability；Due to two radiators, 1 middle shape Into interlayer so that steam flows to top from bottom and forms convection current, improves heat loss through radiation effect, with stack effect.

As preferred embodiment, two radiators 1 be spaced apart including two and formed the curve conducting strips 4 of interlayer and Two heat sinks 5 being separately positioned on the outside of two curve conducting strips 4, two runners, 7 each self-bonding are arranged on the folder of two curve conducting strips 4 In layer, make that there is inside radiator 1 passage straight up.

Viewed from above, two heat sinks 5 and runner 7 constitute two sheaf spaces, and the space is provided with the curve heat conduction of fluctuating Piece 4 so that radiator 1 defines some vertical passages, is easy to steam to flow to top from bottom and forms convection current.And with above-mentioned two 1 intermediate course common combination of radiator defines three to stream interface.

To increase curve conducting strip 4 with corresponding runner 7 and the contact area of correspondence heat sink 5, the ripple of each curve conducting strip 4 The plane that spike paddy is.

Used as preferred embodiment, each curve conducting strip 4 is aluminium.

Used as preferred embodiment, refrigerant exit 2 and refrigerant import 3 are arranged on the same side.

Used as preferred embodiment, two runners 7 include some upper strata runners connected with refrigerant import 3 and and coolant Some lower floor's runners of 2 connection of outlet, being provided between each upper strata runner and refrigerant import 3 makes coolant uniform flow enter each upper stream The First Transition passage in road, is provided with make coolant uniformly flow out each lower floor's runner between each lower floor's runner and refrigerant exit 3 Two transition passages, radiator 1 are provided with the side away from refrigerant exit 2 or refrigerant import 3 and make each upper strata runner and each lower floor The hybrid channel of flow passage.With reference to Fig. 3, although First Transition passage and the second transition passage share a pipeline, both Not insertion, hybrid channel are arranged on left side.

Coolant respectively enters the First Transition passage on both sides first, and is uniformly flowed into by First Transition passage some parallel The upper strata runner of setting；Through hybrid channel evenly into some underflows be arrangeding in parallel after coolant outflow upper strata runner Road, coolant first converge in the second transition passage, flow out afterwards.

Certainly, the runner 7 inside radiator 1 may be arranged as continuous curve, only one connection refrigerant import 3 Outlet and an import for connecting refrigerant exit 2.

As some vertical ribs 6, ribs 6 preferred embodiment, are provided with the interlayer of two radiators 1 Both playing increases the overall intensity of floride-free heating sheet structure, moreover it is possible to prevent the steam of interlayer from laterally disorderly going here and there.

Structure at refrigerant exit 2 is similar to the structure of refrigerant import 3, can refer to Fig. 2, will not be described here.

Certainly, the design is created and is not limited to above-mentioned embodiment, and the combination of the various embodiments described above different characteristic also may be used To reach good effect.Those of ordinary skill in the art on the premise of without prejudice to spirit of the invention can also make equivalent and become Shape or replacement, the modification of these equivalents or replacement are all contained in the application claim limited range.

Claims (8)

1. a kind of floride-free heating sheet structure, it is characterised in that：The radiator of interlayer is spaced apart and is formed including two（1）, described in two Radiator（1）Inside be provided with runner（7）, runner described in two（7）Refrigerant import（3）It is separately positioned on heating installation described in two Piece（1）Top, runner described in two（7）Refrigerant exit（2）It is separately positioned on radiator described in two（1）Lower section, coolant from Refrigerant import（3）Separately flow into two radiators（1）Inside and in refrigerant exit（2）Again converge outflow.

2. floride-free heating sheet structure according to claim 1, it is characterised in that：Radiator described in two（1）Include between two Separate and formed the curve conducting strip of interlayer（4）And it is separately positioned on curve conducting strip described in two（4）Two heat sinks in outside （5）, runner described in two（7）Each self-bonding is arranged on two curve conducting strips（4）Interlayer in, make radiator（1）Inside have Passage straight up.

3. floride-free heating sheet structure according to claim 2, it is characterised in that：Each curve conducting strip（4）Crest Trough is plane.

4. floride-free heating sheet structure according to claim 3, it is characterised in that：Each curve conducting strip（4）For aluminium.

5. floride-free heating sheet structure according to claim 1, it is characterised in that：The refrigerant exit（2）And refrigerant import （3）It is arranged on the same side.

6. the floride-free heating sheet structure according to any one of Claims 1 to 5, it is characterised in that：Runner described in two（7） Including with refrigerant import（3）Some upper strata runners and and refrigerant exit of connection（2）Some lower floor's runners of connection, each upper stream Road and refrigerant import（3）Between be provided with the First Transition passage for making coolant uniform flow enter each upper strata runner, each lower floor's runner with Refrigerant exit（3）Between be provided with the second transition passage for making coolant uniformly flow out each lower floor's runner, the radiator（1）Remote From refrigerant exit（2）Or refrigerant import（3）Side be provided with the hybrid channel for making each upper strata runner and each lower floor's flow passage.

7. the floride-free heating sheet structure according to any one of Claims 1 to 5, it is characterised in that：The runner（7）For flat Flat tubulose.

8. the floride-free heating sheet structure according to any one of Claims 1 to 5, it is characterised in that：Radiator described in two（1） Interlayer in be provided with some vertical ribs（6）.