CN106032912A - An atomic medium secondary conduction heat dissipation device - Google Patents

Abstract

The invention provides an atomic medium secondary conduction heat dissipation device comprising a heat dissipation outer shell. A metal inner container is arranged in the heat dissipation outer shell; a heating tube is arranged at the bottom end in the metal inner container and comprises a water inlet and a water outlet; the water inlet and the water outlet are located on the outside of the metal inner container; the inside of the metal inner container is in a negative pressure state and provided with atomic medium liquid; the heating tube is soaked in the atomic medium liquid; the metal inner container is provided with a vacuum valve and a medium filling port. A small amount of hot water circulates in the heating tube and the heat is rapidly conducted out via the atomic medium liquid to heat the vacuum metal inner container and then outward conducted to the heat dissipation outer shell, so that the heat conduction efficiency is high; the heat dissipation device can save water by more than 35 times and save energy by more than 4 times compared with common heat dissipation devices; the heat conduction speed is high and the heat in the upper portion and heat in the lower portion of the heat dissipation device are uniform. The heat dissipation device is simple in structure, is highly-efficient and energy-saving in production and using processes and is environmentally-friendly and safe and heat is stable.

Description

A kind of atomic medium secondary-conduction radiator

Technical field

The present invention relates to heating system technical field, specifically a kind of atomic medium secondary-conduction radiator.

Background technology

At present, carry out growing vegetables in the winter time, booth is grown flower winter, indoor culture, fermentation edible fungi and winter The places such as Ji Jianzhu is interior are required for warming oneself.Common heating mode is hot-water heating heating, and hot-water heating warmer is The one of central heating, provides pressure with pump, and boiler interior-heat water is delivered to every family, then by heat radiation After sheet heat exchange, the recovery that the water after temperature decline has, have enters sewer.The heating of this hot-water heating exists Problem is, water consumption is big, serious waste water resource, and radiating efficiency is relatively low.

A kind of water consumption and the high heating system of radiating efficiency can be reduced accordingly, it would be desirable to develop.

Summary of the invention

The present invention proposes a kind of atomic medium secondary-conduction radiator, efficiently solves hot-water heating in prior art and takes The warm problem that mode water consumption is big, radiating efficiency is low.

The technical scheme is that and be achieved in that:

A kind of atomic medium secondary-conduction radiator, including heat-dissipating casing, is provided with metal in described heat-dissipating casing Inner bag, bottom within described metal inner tube arranges and adds heat pipe, described in add heat pipe there is water inlet and outlet, Described water inlet and outlet are positioned at the outside of described metal inner tube；

Be negative pressure state in described metal inner tube, and inside be filled with atomic medium liquid, described in add heat pipe submergence In described atomic medium liquid；

Described metal inner tube is provided with vacuum valve and Filled Dielectrics mouth.

Further, the pressure in described metal inner tube is 100-1000 Pascal.

Further, the quantity of described metal inner tube is two, setting up and down；Metal inner tube above The outlet adding heat pipe connect with the water inlet adding heat pipe of metal inner tube being positioned at lower section.

Further, described heat-dissipating casing is aluminium shell, including two panels radiating surface, is positioned at above radiating surface Upper casing, be positioned at the lower casing below radiating surface and be positioned at the end housing at radiating surface two ends.

Further, the two ends up and down of described end housing are provided with buckle closure.

Further, the rear side of described heat-dissipating casing is fixed with protective plate, and described protective plate is near described heat radiation The surface of the side of shell is provided with infrared reflection plate.

Further, described heat-dissipating casing is made up of the material of following weight parts: ferrum 50 parts, carbon 25-30 part, Copper 5-8 part, nickel 2-5 part, manganese 2-4 part, nitrogen 0.5-2 part.

Further, described heat-dissipating casing includes two panels radiating surface, is positioned at the upper casing above radiating surface, is positioned at Lower casing below radiating surface and the end housing being positioned at radiating surface two ends.

Further, described atomic medium liquid is made up of the material of following weight parts:

Further, described atomic medium liquid is made up of the material of following weight parts:

The invention have the benefit that

In the present invention, a small amount of hot water circulates within adding heat pipe, and atomic medium liquid is excited by hot water heat, Rapidly heat is derived, the metal inner tube of vacuum is heated, be then transmitted on heat-dissipating casing outward, conduction of heat Efficiency is high.

The present invention arranges infrared reflection plate, radiator is separated with body of wall, and by radiator to body of wall side Reflex to indoor to the heat distributed, avoid heat absorbing wall largely, be favorably improved indoor Heat supply efficiency, it is ensured that the peak use rate of heat, concurrently facilitates the use saving heating fuel.

Heat-dissipating casing uses ferrum, carbon, copper, nickel, manganese, the synthetic material of nitrogen, breaks existing radiator and isozygotys The material of gold limits, and the addition of nonmetalloid does not only affect its thermal diffusivity, and makes material be easier to Processing, reduces the pad adding man-hour, is not easily broken.

The present invention economizes on water more than 35 times than common radiator, saves the energy more than 4 times, and heat conduction velocity is fast, The upper and lower even heat of radiator.Simple in construction, energy-efficient, environmental protection during producing and using, safety, Heat is stable.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to enforcement In example or description of the prior art, the required accompanying drawing used is briefly described, it should be apparent that, describe below In accompanying drawing be only some embodiments of the present invention, for those of ordinary skill in the art, do not paying On the premise of going out creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural representation of one embodiment of the invention；

Fig. 2 is protective plate and the heat-dissipating casing part-structure schematic diagram of one embodiment of the invention.

In figure:

1, radiating surface；2, upper casing；3, lower casing；4, end housing；5, buckle closure；6, metal inner tube；7, add Heat pipe；8, water inlet；9, outlet；10, atomic medium liquid；11, vacuum valve；12, Filled Dielectrics Mouthful；13, protective plate；14, infrared reflection plate.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clearly Chu, be fully described by, it is clear that described embodiment be only a part of embodiment of the present invention rather than Whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art are not making creation The every other embodiment obtained under property work premise, broadly falls into the scope of protection of the invention.

Embodiment 1

As it is shown in figure 1, the atomic medium secondary-conduction radiator in the present embodiment, including heat-dissipating casing, this In embodiment, heat-dissipating casing is aluminium shell, the radiating surface 1 that is oppositely arranged including two panels, is positioned at radiating surface 1 Top upper casing 2, be positioned at the lower casing 3 below radiating surface 1 and be positioned at the end housing 4 at radiating surface 1 two ends, end housing The two ends up and down of 4 are provided with buckle closure 5.Radiating surface 1, upper casing 2, lower casing 3 and end housing 4 are combined as heat-dissipating casing, There is on radiating surface 1 radiating fin, increase radiating efficiency.Buckle closure 5 can be dismantled, convenient to end housing 4 Internal parts are inspected.

Being provided with metal inner tube 6 in heat-dissipating casing, the bottom within metal inner tube 6 arranges and adds heat pipe 7, heating Pipe 7 has water inlet 8 and outlet 9, water inlet 8 and outlet 9 and is positioned at the outside of metal inner tube 6, uses In being connected with hot water cyclesystem；It is negative pressure state in metal inner tube 6, and inside is filled with atomic medium liquid 10, add heat pipe 7 and be immersed in atomic medium liquid 10；Metal inner tube 6 is provided with vacuum valve 11 and medium is filled out Filling mouth 12, carry out evacuation by vacuum valve 11 to controlling metal inner tube 6, Filled Dielectrics mouth 12 is used for filling out Fill atomic medium liquid 10.

In the present embodiment, the pressure in metal inner tube 6 is 200 Pascals, 100-1000 handkerchief in actual application SIKA can.Metal inner tube 6 is set to negative pressure state, is to steam after atomic medium liquid 10 is heated to balance The pressure carried out the coffin upon burial increases, it is to avoid metal inner tube 6 is excessive and damaged because of pressure.

In the present embodiment, the quantity of metal inner tube 6 is two, setting up and down；Metal inner tube 6 above The outlet 9 adding heat pipe 7 connect with the water inlet 8 adding heat pipe 7 of metal inner tube 6 being positioned at lower section. So, hot water enters from the water inlet 8 adding heat pipe 7 of top, adds heat pipe 7, the adding of lower section through top After heat pipe 7, the outlet 9 adding heat pipe 7 from below flows out, and completes circulation.In actual application, permissible As required, the quantity of metal inner tube 6, shape, position relationship etc. are changed, to adapt to application demand.

As in figure 2 it is shown, the rear side at heat-dissipating casing is fixed with protective plate 13, protective plate 13 is near heat-dissipating casing The surface of side be provided with infrared reflection plate 14.Protective plate 13 can protect radiator, infrared reflection plate 14 for reflexing to indoor, protective plate 13 and infrared reflection plate by radiator to the heat that wall direction distributes 14 for separating radiator with body of wall, prevents body of wall from absorbing substantial amounts of heat.

In the present embodiment, atomic medium liquid is made up of the material of following weight parts:

In actual applications, the ratio of substance weight part of atomic medium liquid can be modified, such as:

Or

Or

Under normal circumstances, the ratio of substance weight part of atomic medium liquid as follows can,

In the present embodiment, hot water circulates within adding heat pipe 7, and heat is derived, rapidly by atomic medium liquid 10 Being heated by the metal inner tube 6 of vacuum, be then transmitted on heat-dissipating casing outward, heat conduction efficiency is high, and ratio is commonly Radiator economize on water more than 35 times, save the energy more than 4 times.

Embodiment 2

The present embodiment structure is substantially the same manner as Example 1, and difference is, the heat-dissipating casing in the present embodiment by The material composition of following weight parts: ferrum 50 parts, 25 parts of carbon, copper 6 parts, 3 parts of nickel, 2 parts of manganese, nitrogen 1 Part；

Or it is made up of the material of following weight parts: ferrum 50 parts, 27 parts of carbon, copper 5 parts, 2 parts of nickel, manganese 3 Part, 0.5 part of nitrogen；

Or it is made up of the material of following weight parts: ferrum 50 parts, 30 parts of carbon, copper 8 parts, 5 parts of nickel, manganese 4 Part, 2 parts of nitrogen.

Generally, heat-dissipating casing is made up of the material of following weight parts in the application: ferrum 50 parts, carbon 25-30 part, Copper 5-8 part, nickel 2-5 part, manganese 2-4 part, nitrogen 0.5-2 part.

In the present embodiment, heat-dissipating casing uses ferrum, carbon, copper, nickel, manganese, the synthetic material of nitrogen, breaks existing There are the material restriction that radiator isozygotys golden, the addition of nonmetalloid, not only do not affect its thermal diffusivity, and Make material be more readily processed, reduce the pad adding man-hour, be not easily broken.

The foregoing is only presently preferred embodiments of the present invention, not in order to limit the present invention, all at this Within bright spirit and principle, any modification, equivalent substitution and improvement etc. made, should be included in this Within bright protection domain.

Claims (10)

1. an atomic medium secondary-conduction radiator, it is characterised in that include heat-dissipating casing, described heat radiation Being provided with metal inner tube in shell, bottom within described metal inner tube arranges and adds heat pipe, described in add heat pipe and have Water inlet and outlet, described water inlet and outlet are positioned at the outside of described metal inner tube；

Be negative pressure state in described metal inner tube, and inside be filled with atomic medium liquid, described in add heat pipe submergence In described atomic medium liquid；

Described metal inner tube is provided with vacuum valve and Filled Dielectrics mouth.

2. a kind of atomic medium secondary-conduction radiator as claimed in claim 1, it is characterised in that described Pressure in metal inner tube is 100-1000 Pascal.

3. a kind of atomic medium secondary-conduction radiator as claimed in claim 2, it is characterised in that described The quantity of metal inner tube is two, setting up and down；The outlet adding heat pipe of metal inner tube above with It is positioned at the water inlet connection adding heat pipe of the metal inner tube of lower section.

4. a kind of atomic medium secondary-conduction radiator as claimed in claim 1, it is characterised in that described Heat-dissipating casing is aluminium shell, including two panels radiating surface, is positioned at the upper casing above radiating surface, is positioned at radiating surface The lower casing of lower section and the end housing being positioned at radiating surface two ends.

5. a kind of atomic medium secondary-conduction radiator as claimed in claim 4, it is characterised in that described The two ends up and down of end housing are provided with buckle closure.

6. a kind of atomic medium secondary-conduction radiator as claimed in claim 1, it is characterised in that described The rear side of heat-dissipating casing is fixed with protective plate, and described protective plate sets near the surface of the side of described heat-dissipating casing There is infrared reflection plate.

7. a kind of atomic medium secondary-conduction radiator as claimed in claim 1, it is characterised in that described Heat-dissipating casing is made up of the material of following weight parts: ferrum 50 parts, carbon 25-30 part, copper 5-8 part, nickel 2-5 Part, manganese 2-4 part, nitrogen 0.5-2 part.

8. a kind of atomic medium secondary-conduction radiator as claimed in claim 7, it is characterised in that described Heat-dissipating casing include two panels radiating surface, be positioned at the upper casing above radiating surface, be positioned at the lower casing below radiating surface and It is positioned at the end housing at radiating surface two ends.

9. a kind of atomic medium secondary-conduction radiator as claimed in claim 1, it is characterised in that described Atomic medium liquid is made up of the material of following weight parts:

10. a kind of atomic medium secondary-conduction radiator as claimed in claim 9, it is characterised in that institute State atomic medium liquid to be made up of the material of following weight parts: