CN110529918A - A kind of loop circuit heat pipe radiator cellular construction and system - Google Patents

Abstract

The purpose of the present invention is to provide a kind of loop circuit heat pipe radiator cellular constructions, including heat exchanging pipe and radiator collection, the radiator collection includes the first heat exchanger tube and connecting tube, first heat exchanger tube is wrapped in outside the circulation line in nested closing, the connecting tube lower end is connected to first heat exchanger tube, recycle stream is connected with from the first extraneous heat transferring medium in the heat exchanging pipe, the radiator is concentrated filled with the second heat transferring medium, and second heat transferring medium is the refrigerant marked condition boiling point and be lower than 110 degrees Celsius.By the loop circuit heat pipe radiator cellular construction and system, have the advantages that structure simplifies, is small in size, low energy consumption, manufacturing cost is low.

Description

A kind of loop circuit heat pipe radiator cellular construction and system

Technical field

The present invention relates to architecture indoor temperature equipment technical field more particularly to a kind of loop circuit heat pipe radiator cellular constructions And system.

Background technique

Radiator heating is used for central heating or natural gas boiler or air energy thermal using hot water as medium in conventional chamber The heat dissipation end of pump；Radiator has very big advantage than floor heating using the bright interior fitted up.Comfort level is between ground Between warm wind disc type heating.For home environment, using water system heating, there are the following problems, and one, water pipe diameter generally exists Diameter 16-32mm or so needs out 50 or larger size wall-through hole, influences Building Structure Strength when pipe is walked in wiring.Increase construction Difficulty.Two, it is lower than subzero area, water pipe and radiator in temperature, host etc. has the freezing risk that freezes.It needs to take many guarantors Warm antifreezing measures.Three, it is high using natural gas boiler heating cost, it is 2-4 times of air energy heat pump operating cost.Four, it is conventional empty Gas energy cold-warm water heat pump minimum type 3P or more, needs to configure water pump, and heat exchanger, water tank etc., whole system price is very expensive, Energy consumption is higher.

Summary of the invention

The purpose of the present invention is to provide a kind of loop circuit heat pipe radiator cellular construction and systems, to solve the prior art The problem of, by the loop circuit heat pipe radiator cellular construction and system, with structure simplifies, is small in size, low energy consumption, raw Produce the low advantage of manufacturing cost.

To realize goal of the invention, present invention employs following technical solutions:

A kind of loop circuit heat pipe radiator cellular construction, including heat exchanging pipe and radiator collection, the radiator collection are changed including first Heat pipe and connecting tube, first heat exchanger tube are wrapped in outside the circulation line in nested closing, and the connecting tube both ends connect Lead to first heat exchanger tube, filled with the first heat transferring medium in the heat exchanging pipe, the radiator is concentrated to be situated between filled with the second heat exchange Matter, second heat transferring medium are refrigerant of the boiling point less than 110 DEG C under the status of criterion.

As a preference of the present invention, the radiator collection further includes the second heat exchanger tube, second heat exchanger tube is connected to institute State upper end of connecting tube.

As a preference of the present invention, first heat exchanger tube includes that mid diameter is greater than the heat exchanging pipe and is socketed in it Outer liquid storage section and the linkage section that the heat exchanging pipe outer surface is socketed in positioned at liquid storage section both ends and sealing.

As a preference of the present invention, the connecting tube has 4 ~ 30 column disposed in parallel, the connecting tube is in by described the The extension of one heat exchanger tube straight up.

As a preference of the present invention, the connecting tube and/or the second heat exchanger tube are equipped with extension, the extension be in by Outside one extends in connecting tube and/or the second heat exchanger tube.

As a preference of the present invention, further including the function pipe being connected in branch on first heat exchanger tube, the function Tube end is in openable and closable enclosed construction.

The present invention also provides a kind of loop circuit heat pipe radiator systems, including the heat exchanger being located outside and are located at indoor Wind disk, further includes a kind of loop circuit heat pipe radiator cellular construction described above, and the heat exchanging pipe is described in both ends are connected to Heat exchanger forms at least one of loop, and the radiator collection includes at least one that the heat exchanging pipe is connected in interval, The heat exchanger is also in series with expansion valve and compressor.

Thus, it is possible to combine to form the structure for being equivalent to air-conditioning by heat exchanger, compressor and expansion valve, and pass through inverse card The work of promise circulation theory, the first heat transferring medium are pressurizeed in compressor, become high temperature and high pressure gas, are entered the room and are concentrated with heat exchange Heat exchange realizes that heating function, wind disk can be connected on after radiator collection, can also be used in parallel with radiator collection, the first heat exchange Medium condenses heat release, becomes the medium of cryogenic high pressure when flowing through radiator collection or wind disk, expands cooling drop using expansion valve Pressure, becomes the medium of low-temp low-pressure, using outdoor air heat exchanger evaporation endothermic, becomes steam and return to suction port of compressor, then It is pressurized, so recycle.

As a preference of the present invention, the radiator integrates and wind disk is the one or more of serial or parallel connection.

As a preference of the present invention, the heat exchanging pipe diameter is 5 ~ 50mm.

As a preference of the present invention, being also in series with four-way valve on the compressor assembly.

The beneficial effects of the present invention are:

1, it integrates and is realized by it with heat exchanger (can be outdoor machine of air-conditioner or multi-connected machine) and exchange heat, integration degree is high, energy consumption Low, structure is simple, production simple installation；

2, heat loss through convection is mainly added using heat loss through radiation, comfort level is high；

3, the structure to be exchanged heat using two-stage, the first heat transferring medium of the flowing for needing to drive are not necessarily to be full of entire radiator, always be filled out Charge is few, and system service load is effectively reduced and reduces the pipe resistance of the first heat transferring medium of flowing, simultaneously because charging quantity It is few, so that the more chances of the lubricating oil in pipeline is flowed through compressor, lubricates compression function preferably.

Detailed description of the invention

Fig. 1 is the loop circuit heat pipe radiator cellular construction schematic diagram of the embodiment of the present invention one；

Fig. 2 is loop circuit heat pipe radiator system connection schematic diagram of the invention；

Fig. 3 is the system connection schematic diagram of the embodiment of the present invention two；

Fig. 4 is the loop circuit heat pipe radiator cellular construction schematic diagram of the embodiment of the present invention three；

Fig. 5 is the system connection schematic diagram of the embodiment of the present invention four；

Fig. 6 is the loop circuit heat pipe radiator cellular construction schematic diagram of the embodiment of the present invention five；

Fig. 7 is the system connection schematic diagram of the embodiment of the present invention six；

Fig. 8 is the system connection schematic diagram of the embodiment of the present invention seven；

Items are respectively as follows: 101 heat exchangers, 201 circulation lines, 204 expansion valves, 205 compressor assemblies, 300 radiators in figure Collection, 301 first heat exchanger tubes, 302 second heat exchanger tubes, 303 connecting tubes, 304 wind disks, 305 extensions, 500 function pipes.

Specific embodiment

Below in conjunction with attached drawing, the present invention will be described in detail:

Embodiment one

A kind of loop circuit heat pipe radiator cellular construction as shown in Figure 1, 2, including heat exchanging pipe 201 and radiator collection 300.Heating Piece collection 300 is made of the metal of the easy processings such as steel/copper/aluminium and good heat conductivity comprising is interconnected and is formed an envelope Close the first heat exchanger tube 301, connecting tube 303 and second heat exchanger tube 302 in space, 302 water of the first heat exchanger tube 301 and the second heat exchanger tube Flat interval setting, 303 both ends of connecting tube connect with the first heat exchanger tube 301 and the second heat exchanger tube 302 respectively and are connected to them, the One heat exchanger tube 301 is wrapped in part in paragraph type closing and is located at formation sleeve heat exchange structure outside indoor circulation line 201, this Heat exchanging pipe 201 in embodiment is in a unidirectional siphunculus, i.e., the first heat transferring medium through-flow direction therein is in change first At one end of heat pipe 301 into, go out at the other end, so as to be configured with lesser diameter, reduce overall volume, connecting tube 303 both ends are connected to the first heat exchanger tube 301 and the second heat exchanger tube 302, and the second heat exchanger tube 302 is located at interior；It is filled in heat exchanging pipe 201 There is the first heat transferring medium, filled with the second heat transferring medium in radiator collection 300.First, second heat transferring medium can be freon etc. Refrigerant, wherein the first heat transferring medium can be common freon of air-conditioning/multi-line system etc., the second heat transferring medium is easier to gasify Freon, alcohol, methyl ether or water guarantee its phase-change heat-exchange effect, it is below in room temperature that the second heat transferring medium is preferably boiling point Medium.In the operation of this unit, the first heat transferring medium is heated first, the first heat transferring medium under higher temperature transfers heat to Second heat transferring medium, the second heat transferring medium are usually in a liquid state, and under the effect of gravity, are in a liquid state and are gathered in the first heat exchanger tube 301 Interior, after by the heating of the first heat transferring medium, heat absorption evaporative phase-change is gaseous state, and gaseous second heat transferring medium is upward through connection Pipe 303 simultaneously eventually enters into the second heat exchanger tube 302, and connecting tube 303 and the second heat exchanger tube 302 are located in the interior space to be heated (i.e. Their temperature is more gaseous, and second heat transferring medium is lower), gaseous second heat transferring medium is in connecting tube 303 and the second heat exchanger tube 302 inside release heat and condense, and the heat released is realized by the wall surface of connecting tube 303 and the second heat exchanger tube 302 to room The radiant heating of interior air, to realize heating effect.Condensed second heat transferring medium is downward along the inner wall of above-mentioned pipeline Flow back into completion heat cycles at the first heat exchanger tube 301.And in summer, temperature of the existing radiator because of the cold water passed through in it Spend it is lower condensation can occur on surface, in cooling in summer, the second heat transferring medium is condensed into liquid, still due to gravity It rests in the space between heat exchanging pipe 201 and the first heat exchanger tube 301, liquid does not diffuse into the second heat exchanger tube 302 and connects In adapter tube 303；Therefore the second heat exchanger tube 302, connecting tube 303 and extension 305 are still close with room temperature, therefore will not condensation.This In embodiment, the first heat exchanger tube 301 includes mid diameter greater than heat exchanging pipe 201 and the liquid storage section being socketed in outside it with one heart and position In liquid storage section both ends and sealing welding realizes the linkage section for being socketed in heat exchanging pipe outer surface, so that the second heat exchange can be thus achieved Medium is uniformly distributed 201 outside of heat exchanging pipe to improve heat transfer effect, and has good sealing performance, avoids first from changing Thermal medium possible leakage in the process of running.

In the present embodiment, connecting tube 303 has 4 ~ 30 column disposed in parallel (further in other preferred embodiments In, the quantity between preferably 6 ~ 20) to improve heat exchange area and provide the more common pass of the second heat transferring medium, Connecting tube 303 is in by the extension straight up of the first heat exchanger tube 301 to forming the heating sheet structure being vertically arranged, relatively existing The hot steam heating sheet structure of coiling can effectively save space.

In the present embodiment, the second medium heat exchanging pipe diameter is 2 ~ 40mm.It is preferred that 8-25mm.

In the present embodiment, every column radiator height can be 300mm to 1800mm, indoors 18 degrees Celsius of temperature when, often Column heat dissipation capacity is between 50-400W.Such as preferably in height 600mm, when using Copper-Aluminum compound heat radiating fin structure, single-column heat dissipation capacity Between 80-150W.10 pillar height 600mm radiator collection are combined at 18 degrees Celsius of room temperature, can reach 1500W heat dissipation capacity.

In the present embodiment, connecting tube 303, which is equipped with, improves prolonging for heat exchange efficiency with room air contact area for increasing Extension 305 also can be set on the second heat exchanger tube 302 in other preferred embodiments in extending portion 305(), extension 305 be in by Extend in connecting tube 303 to external welding/die cast/pipe sleeve expanded joint one, can be flat fin or other waves The abnormity blade such as type, integrated extended structure makes the second heat exchanger tube 302 of extension 305 and connecting tube 303() between thermally conductive pathways It is unobstructed, it is good to the heating effect of room air.

It further include the function pipe 500 being connected in branch on the first heat exchanger tube 301,500 end of function pipe in the present embodiment In openable and closable enclosed construction, such as plug closing can be used in its opening, and after mounting, the first heat exchanger tube 301 is generally embedded Be loaded on indoor wall in flooring or metope, or with protection wire casing is bright, connecting tube 303 and the second heat exchanger tube 302 it is exposed Indoor heat exchange, the end of function pipe 500 also stretch out in interior simultaneously, are needing to carry out maintenance maintenance (as the second heat exchange of supplement is situated between Matter) when, the suction and perfusion for the second heat transferring medium in heating blade unit can be realized by function pipe 500, thus convenient The progress of maintenance, without destroy the operation of wall surfacing.

It refer again to Fig. 1,2, the present embodiment additionally provides a kind of loop circuit heat pipe radiator system, changes including what is be located outside Heat engine 101 and positioned at indoor wind disk 304(they combine formed in air-conditioning or multi-connected machine for the part that exchanges heat and blow), It further includes a kind of above-mentioned loop circuit heat pipe radiator cellular construction, and heat exchanging pipe 201 is that both ends are connected to the formation of heat exchanger 101 One of loop, radiator collection 300 include that at least one that heat exchanging pipe 201 is connected in interval can be in house installation One or more radiator collection 300 are driven for air-conditioning/multi-connected machine outdoor unit (being equivalent to heat exchanger 101), radiator collection 300 can It is separately provided with according to demand in different rooms one or more integrated with air-conditioning/multi-line system to higher Property, the heating to the first heat transferring medium can be realized by air-conditioning/multi-connected machine heating device.Meanwhile first heat exchanging medium flow Dynamic heat exchanging pipe 201 need to access indoor one end and connect radiator collection 300, i.e., steam without such as the existing hot water of tradition Vapour radiator equally drives all media to carry out the flowing of coiling to exchange heat, i.e., flow distance is short, overall volume is small, thus The usage amount and consumption of driving pressure when operation and the first heat transferring medium is effectively reduced.By test, this radiator system Compared to existing Electric radiator system, 2/3 or so energy consumption can be reduced.

In the present embodiment, radiator collection 300 and wind disk 304 are the series connection on a heat exchanging pipe 201, work as indoor heating At 5-15 square metres, preferably 1 or so heat exchanger 101(is equivalent to air conditioner)；When indoor heating area is at 10-20 squares Meter Shi, preferably 1.5 or so heat exchanger 101(are equivalent to air conditioner)；It is excellent when indoor heating area is at 15-35 squares 2 or so heat exchanger 101(are selected to be equivalent to air conditioner)；When indoor heating area is at 25-50 square metres, preferably 3 left sides Right heat exchanger 101(is equivalent to air conditioner).

When radiator collection 300 and wind disk 304 are connected, the first heat transferring medium radiator collection 300 heat exchange amount in 20%- Between 80%, 30%-60% can be preferably reached under suitable parameter.Wind disk condensation number between 80% to 20%；Suitable Parameter under can preferably reach 70% to 40%.

Radiator collection 300 is connected to the front end of the first heat transferring medium flow direction, wind disk 304 is connected to the first heat exchange in the present embodiment The rear end of medium flow direction.In this way when the low wind speed of wind disk 304 is run, 304 wind-warm syndrome of wind disk will not be too high, is conducive to keep indoor phase It is higher to humidity, have higher comfort level.

In the present embodiment, heat exchanging pipe 201 is air-conditioning/multi-connected machine refrigerant (i.e. the first heat transferring medium) pipeline, heat exchange Machine 101 is also in series with expansion valve 204 and compressor 205 to form the unidirectional flow path of refrigerant, to guarantee the smoothness of heating Operation.

In the present embodiment, 304 downstream of wind disk is provided with heat exchanging pipe 201(in the present embodiment, which is It is one of single-line series wind disk 304 and radiator collection 300, in other preferred embodiments, two parallel connections also can be set Heat exchanging pipe 201 be separately connected wind disk 304 and radiator collection 300, to improve the convenient peace in the different building structure Fill performance), it is directed toward radiator collection 300 downstream.Wind disk 304 can be used as air-conditioning internal machine use in day heat, in the cold needs in day When heating, by by front side panel around the heat of heat exchanging pipe 201 or the heat of radiator collection 300 blow to interior can be real Now to the quick heating of room air, heating speed is improved, guarantees comfort.Wind disk 304 reduces air quantity after rapid heating Or it stops working, but compressor continues underload work and maintains radiator collection temperature between 35-60 degrees Celsius, dissipates to interior Heat guarantees that the room noise and blowing feeling for reducing comfort will not be generated.

In the present embodiment, heat exchanging pipe 201 whens using freon etc., 201 diameter of heat exchanging pipe preferably 5 ~ 30mm to Convenient for being laid with, the pipeline of diameter 8-15mm preferred for 8-20 squares of room, the diameter of the first heat exchanger tube 301 also compares accordingly Heat exchanging pipe 201 is 2 ~ 10mm bigger.The diameter can meet the fluid interchange demand of the first heat transferring medium and the second heat transferring medium, Compared to existing hot water/steam heater piece, its pipeline diameter is greatly reduced, to have good installation convenience.

In the present embodiment, four-way valve is also in series on the pipeline that compressor assembly 205 passes in and out connection heat exchanging pipe 201 (not shown), can be by the first heat transferring medium of four-way Vavle switching in heat exchanging pipe when system is freezed and is heated Flow direction in 201 is to realize the switching of refrigeration and heating.

Embodiment two

Technical solution documented by embodiment two is approximate with embodiment one, the difference is that:

As shown in figure 3, the heat exchanger 101 in the present embodiment is located in multi-line system, the multi-line system is in heat exchanging pipe 201 It is upper in four branches are arranged in parallel to be arranged in four not structures in chummery, wherein the heat exchanging pipe 201 in three rooms Branch road is in series with wind disk 304 and radiator collection 300, and 201 roads of heat exchanging pipe in the 4th room are provided only with radiator collection 300。

Embodiment three

The technical solution recorded in embodiment three is approximate with embodiment one, the difference is that:

As shown in figure 4, the nested heat exchanging pipe 201 being located in the first heat exchanger tube 301 is the bimetallic tube in socket in the present embodiment, Wherein internally positioned pipeline is both ends perforation, on the outside of the external pipeline pipeline closed at both ends for being socketed in inside and at it Tube wall is equipped with connecting tube, i.e., the circulation path of the first heat transferring medium is by flowing in the end of internal pipeline in the present embodiment Enter/flow out, and enter in the space between inside and outside pipeline in the other end of internal pipeline, and finally from external pipe Outflow/inflow at the connecting tube on road all exists as disengaging of the first heat transferring medium of refrigerant in heat exchange in the present embodiment It completes one end of radiator.On the outside of at this, heat exchanging pipe 201 or be in that loop is connected to whole system as embodiment one The middle circulation for realizing the first heat transferring medium.The heat exchanging pipe two for each radiator Ji300Chu that setting through this embodiment is End is more concentrated, and is reduced the interior space occupied in installation laying, is further improved the convenience of laying.

Example IV

Technical solution documented by example IV is approximate with embodiment one, the difference is that:

As shown in figure 5, there is the heat exchanging pipe 201 in embodiment three middle section branch to form in parallel two, so that heating Piece collection 300 can be used as independent heat dissipation end, and He Fengpan 304 is connected toPipe pipe lineIt is used in parallel in 201 Liang Ge branch.

The space being rapidly heated is not being asked, wind disk can not also be configured/use, i.e., entire interior only needs radiator collection 300 are radiated.The first heat transferring medium is carrying out condensation heat release in radiator collection completely at this time.

Similarly, it can also be configured by this specification in multi-line system heat dissipation end loop.

Embodiment five

Documented technical solution is approximate with embodiment one in the present embodiment, the difference is that:

As shown in fig. 6, the radiator collection 300 in the present embodiment only includes the first heat exchanger tube 301 and connecting tube 303, i.e., only at this Two interior intracavitary realization heat exchange cycles, compared to embodiment one which save the second heat exchanger tube 302, structure is more simplified, is consumed Material is less, is easier to the installation settings in small space.

Embodiment six

Documented technical solution is approximate with embodiment one in the present embodiment, the difference is that:

As shown in fig. 7, the radiator collection 300 in the present embodiment is two be connected on a heat exchanging pipe 201, i.e. radiator Collection 300 can be that be connected on a heat exchanging pipe 201 multiple improve single indoor multiposition heat capacity or small family The convenient installation of more room single-pipelines in type.

Embodiment seven

Documented technical solution is approximate with embodiment one in the present embodiment, the difference is that:

As shown in figure 8, the radiator collection 300 in the present embodiment includes corresponding to be set to the heat exchange including four branches in parallel Four (or other quantities) on pipeline 201, while it being designed with electric expansion valve in each branch, so as to Carry out on-off control easily to adjust heating state and improve energy consumption.Each radiator may be mounted at a big room difference Position or different cubicles, with the area of heating region in expansion chamber, and can be independently controlled, carry out subregion temperature control.

Only preferred embodiments of the present invention will be described for above embodiments, not to the spirit and scope of the present invention It is defined, without departing from the design concept of the invention, ordinary people in the field makes technical solution of the present invention All variations and modifications, each fall within protection scope of the present invention, the claimed technology contents of the present invention, whole note It carries in detail in the claims.

Claims (10)

1. a kind of loop circuit heat pipe radiator cellular construction, which is characterized in that including heat exchanging pipe (201) and radiator collection (300), The radiator collection (300) includes the first heat exchanger tube (301) and connecting tube (303), and first heat exchanger tube (301) is in nested envelope Closure is rolled in the circulation line (201) outside, and connecting tube (303) lower end is connected to first heat exchanger tube (301), described Recycle stream, which is connected with, in heat exchanging pipe (201) changes in the first extraneous heat transferring medium, the radiator collection (300) filled with second Thermal medium, second heat transferring medium are the refrigerant marked condition boiling point and be lower than 110 degrees Celsius.

2. a kind of loop circuit heat pipe radiator cellular construction according to claim 1, which is characterized in that the radiator collection It (300) further include the second heat exchanger tube (302), second heat exchanger tube is connected to the connecting tube (303) upper end.

3. a kind of loop circuit heat pipe radiator cellular construction according to claim 1 or 2, which is characterized in that described first changes Heat pipe (301) includes mid diameter greater than the heat exchanging pipe (201) and the liquid storage section being socketed in outside it and is located at the liquid storage Section both ends simultaneously seal the linkage section for being socketed in the heat exchanging pipe outer surface.

4. a kind of loop circuit heat pipe radiator cellular construction according to claim 3, which is characterized in that the connecting tube (303) there is 4 ~ 30 column disposed in parallel, the connecting tube (303) is in the prolonging straight up by first heat exchanger tube (301) It stretches.

5. a kind of loop circuit heat pipe radiator cellular construction according to claim 4, which is characterized in that the connecting tube (303) and/or the second heat exchanger tube (302) is equipped with extension (305), and the extension (305) is in by connecting tube (303) And/or second one outside on heat exchanger tube (302) extend.

6. a kind of loop circuit heat pipe radiator cellular construction according to claim 4, which is characterized in that further include connecting in branch The function pipe (500) being connected on first heat exchanger tube (301), function pipe (500) end are in openable and closable enclosed construction.

7. a kind of loop circuit heat pipe radiator system including the heat exchanger (101) being located outside and is located at indoor wind disk (304), It is characterized in that, further including a kind of loop circuit heat pipe radiator cellular construction as claimed in any one of claims 1 to 6, the heat exchanger tube Road (201) is that both ends are connected to the heat exchanger (101) form loop at least one, and the radiator collection (300) includes being in Interval is connected at least one of the heat exchanging pipe (201), and the heat exchanger (101) is also in series with expansion valve (204) and pressure Contracting machine system (205).

8. a kind of loop circuit heat pipe radiator system according to claim 7, which is characterized in that the radiator collection (300) It is the one or more of serial or parallel connection with wind disk (304).

9. a kind of loop circuit heat pipe radiator system according to claim 7, which is characterized in that the heat exchanging pipe (201) Diameter is 5 ~ 50mm.

10. a kind of loop circuit heat pipe radiator system according to claim 7, which is characterized in that compressor assembly (205) is also It is in series with four-way valve.