CN203823877U - Novel heating radiator roller and water conditioner system thereof - Google Patents

Abstract

The utility model discloses a novel heating radiator roller and a water conditioner system thereof. The heating radiator roller is sequentially composed of a shell, an insulating layer, a hollow arc-shaped fin, a composite heat transfer pipe and a cold-heat exchanger in the diameter direction from exterior to interior. The heating radiator roller is communicated with a solar heat collection water tank. According to the communication mode, one end of the solar heat collection water tank is connected with a circulating pump in series and then connected with the water inlet end of a pipeline water segregator, the water outlet end of the pipeline water segregator is communicated with one end of the heating radiator roller, the other end of the heating radiator roller is connected with the water inlet end of a pipeline water collector, the water outlet end of the pipeline water collector is connected to the solar heat collection water tank through a pipeline in a backflow mode, circulation communication of a heat source is completed, and indoor air enters the heating radiator roller through an air inlet fan for heat exchange and is exhausted indoors through an exhaust fan for heating. According to the novel heating radiator roller and the water conditioner system of the heating radiator roller, the water consumption in the water conditioner heating process is greatly reduced, and the novel heating radiator roller has the advantages of being small in size, low in energy consumption, even in heat supply, high in efficiency, safe to use and the like.

Description

A kind of Novel radiator cylinder and water air-conditioning system thereof

Technical field

The utility model relates to radiator technical field, relates in particular to a kind of technical field that can be used for the radiator cylinder in water air-conditioning system.

Background technology

Scientist says understanding new forms of energy and correctly uses the energy, just means that understanding is towards following road.At present natural resources and energy resources problem is day by day serious, in ensureing comfortable, health requirements, how effectively and reasonably to distribute, and utilizes resource, reduces conventional energy resource consumption and becomes the problem that people have to face.The develop rapidly of recent year market economy, the internal structure of enterprise, industry is in continuous variation, and Market competition, is subject to the impact of relation between market supply and demand, and Chinese development of air conditioning industry is rapid, and Novel intelligent air-conditioning dominates the market, and its capacity is huge.And though existing air-conditioning is ever-changing in appearance, but still need refrigerating fluid to add compressor realization refrigeration, heat, in addition existing air-conditioning power consumption is large, manufacturing cost is high, in installation and practical process, also there are some problems, such as outer machine in use can shift a large amount of heats to environment, does not meet the requirement of energy-saving and emission-reduction, environmental protection.Existing household heating equipment and existing common air-conditioning exist production cost high, when use, power consumption is large, the shortcoming of environmental pollution, existing household heating and refrigeration plant and existing common air-conditioning exist production cost high, the shortcoming such as large and certain environmental pollution of power consumption when use.

With regard to current water air-conditioning, the radiator adopting is generally hot water radiation, because hot water radiation is using water as conducting heat and heat eliminating medium, therefore its water consumption is very big, hot water temperature's higher (more than 65 DEG C) of conducting heat while enabling, and heat transfer rate is comparatively slow.

Also having a kind of is to adopt common superconducting liquid radiator to come to indoor heating, although with hot water radiation water air-conditioning comparatively speaking, its water consumption greatly reduces, but because common superconducting liquid radiator mostly is row's formula, cabinet type or window formula, volume is larger, the area that takes up room is also large, so generally can only be arranged on the lower end of wall; And when common superconducting liquid radiator heated in the short time, gas-flow radiation has a limitation surely; Except above-mentioned defect, the greatest drawback of common superconducting liquid radiator is that it adopts the heating of external radiation formula, in the time that daily life heats, has very large potential safety hazard.

Summary of the invention

Goal of the invention: in order to overcome the deficiencies in the prior art, the utility model provides a kind of Novel radiator cylinder and water air-conditioning system thereof, has greatly reduced the water consumption in water air conditioning and heating process, possesses volume little, consume energy low, heat supply is even and efficiency is high, uses the advantages such as safety.

Technical scheme: for achieving the above object, the technical solution of the utility model is as follows:

A kind of Novel radiator cylinder, described radiator diameter of cylinder direction is made up of shell, heat-insulation layer, hollow arcuated fin piece and cool-heat-exchanger from outside to inside successively; Described hollow arcuated fin piece is curved panel, and its inside is hollow-core construction, be marked with phase-change material, and this hollow-core construction is in sealed vacuum state in the hollow-core construction of described hollow arcuated fin piece; Axially also be provided with at least one complex heat transfer pipe along described radiator cylinder, described complex heat transfer pipe and described hollow arcuated fin piece are around connecting into a cylindrical structure not sealing, and the central shaft of described complex heat transfer pipe and the central axes of hollow arcuated fin piece, described cool-heat-exchanger is arranged on cylindrical structure center; Described complex heat transfer pipe is communicated with extraneous thermal source, and described cool-heat-exchanger is communicated with heating turnover tracheae.

Inject phase-change material in hollow arcuated fin piece boring structure, and hollow arcuated fin piece inside is in sealed vacuum state, when hot water is during by complex heat transfer pipe, the phase-change material of hollow arcuated fin piece inside is activated and steam raising produces high-temperature gas, by hollow arcuated fin piece intrados to radiator cylinder capsula interna heat loss through radiation, with the cool-heat-exchanger heat exchange that is placed in radiator cylinder capsula interna, thereby reach heat loss through radiation heating object.

Further, described complex heat transfer Guan Weiyi root, described hollow arcuated fin piece is a slice, a described complex heat transfer pipe and the hollow arcuated fin piece of a slice are around connecting into a cylindrical structure not sealing.

Further, described complex heat transfer pipeline is one, and described hollow arcuated fin piece is two, a described complex heat transfer pipeline respectively with two hollow arcuated fin pieces around connecting into a cylindrical structure not sealing.

Further, described complex heat transfer pipeline is more than two or two, and described hollow arcuated fin piece is more than two or two, and described multiple complex heat transfer pipelines and multiple hollow arcuated fin pieces space are around connecting into a cylindrical structure not sealing.

Based on the water air-conditioning system of Novel radiator cylinder, comprise solar energy heating water tank and radiator cylinder, one end of described solar energy heating water tank is connected with thermal source outlet pipe, the described solar energy heating water tank other end is connected with thermal source return pipe, described thermal source outlet pipe is connected with the water inlet end of complex heat transfer pipe with after circulating pump serial connection, and the water side of described complex heat transfer pipe is connected with thermal source return pipe; The inlet end of described cool-heat-exchanger is connected with the positive terminal of a side of pipeline reversal valve, and the positive terminal of opposite side of described pipeline reversal valve is connected with supply fan, and the bypass end of described pipeline reversal valve is connected with ventilation fan; The outlet side of described cool-heat-exchanger is connected with exhaust fan.

Further, described complex heat transfer water inlet tube end is connected with pipeline water knockout drum, and the water side of described complex heat transfer pipe is connected with pipeline water collector, and the many groups of serial connection radiator cylinder between described pipeline water knockout drum and pipeline water collector.Each bypass end of described pipeline water knockout drum and pipeline water collector can be connected in series one group of radiator cylinder.

Further, the water side place of described complex heat transfer pipe is connected with miniature air bleeding valve.Be mainly used in the exhaust of complex heat transfer pipe, guaranteed the inner normal water circulation heat transfer of complex heat transfer pipe.Described complex heat transfer water inlet tube end is connected with flow control valve, for regulating the flow of inlet water size of each radiator cylinder.

The water air-conditioning system of the utility model based on Novel radiator cylinder, water consumption greatly reduces.By pipeline water knockout drum and pipeline water collector, make that a solar energy heating water tank can be for multiple radiator cylinders, heating when meeting multiple room.Ventilation fan is arranged on the air inlet port of radiator cylinder by pipeline reversal valve, intelligently realize the warm ventilation of indoor confession.

Beneficial effect: the utility model has the advantage of:

1, the utility model Novel radiator cylinder water air-conditioning in water consumption, be only in the past hot water radiation water air-conditioning 1/5th.

2, the temperature that the utility model Novel radiator cylinder water starting of air conditioner conducts heat only needs 40 DEG C, and hot water radiation water starting of air conditioner heat transfer temperature was 65 DEG C in the past, the utility model Novel radiator cylinder water air-conditioning requires lower to the hot water temperature in solar energy heating water tank, it is easier to use at rainy weather.

3, compared with Novel radiator water air-conditioning system heats with common superconducting liquid radiator, just obviously less on volume, install more convenient.Common superconducting liquid radiator can only be arranged on indoor wall lower end to indoor heating, and Novel radiator cylinder in the utility model not only can be arranged on indoor any position, can also be arranged on outdoor.

4, the water air-conditioning system of Novel radiator cylinder is compared with common superconducting liquid radiator is in heat supply, existing common superconducting liquid radiator is external radiation heating mode, in production and use procedure, cannot provide ventilatory, the water air-conditioning of the utility model radiator cylinder can provide indoor heating, can realize again indoor air-changing function.The heating of Novel radiator cylinder water air-conditioning system is uniformly, and heating installation is more natural and comfortable.

Brief description of the drawings

Accompanying drawing 1 is the longitudinal sectional view of the utility model radiator cylinder.

Accompanying drawing 2 is the transverse sectional view of the utility model radiator cylinder.

Accompanying drawing 3 is the utility model radiator cylinder internal structure front view.

Accompanying drawing 4 is the utility model radiator cylinder appearance front view.

Accompanying drawing 5 is the structural representation of the utility model radiator cylinder water air-conditioning system.

Accompanying drawing 6 is the outdoor structure installation diagram of the utility model solar energy heating water tank.

Accompanying drawing 7 is the specific embodiment figure of three radiator cylinders of the utility model connection.

The indoor arrangement figure that accompanying drawing 8 is radiator cylinder of the present invention.

Accompanying drawing 9a is the side view that the utility model radiator cylinder adopts a complex heat transfer pipe and the hollow arcuated fin piece of a slice.

Accompanying drawing 9b is the three-dimensional reference diagram that the utility model radiator cylinder adopts a complex heat transfer pipe and the hollow arcuated fin piece of a slice.

Accompanying drawing 10a is the side view that the utility model radiator cylinder adopts two complex heat transfer pipes and two hollow arcuated fin pieces.

Accompanying drawing 10b is the three-dimensional reference diagram that the utility model radiator cylinder adopts two complex heat transfer pipes and two hollow arcuated fin pieces.

Detailed description of the invention

Below in conjunction with each accompanying drawing, the utility model is further described.

As shown in accompanying drawing 1,2 and 3, a kind of Novel radiator cylinder, described radiator cylinder 19 diametric(al)s are made up of shell 32, heat-insulation layer 31, hollow arcuated fin piece 30 and cool-heat-exchanger 18 from outside to inside successively.Described shell 32 adopts reinforced plastics to make, and heat-insulation layer 31 is to be made by polyurethane thermal insulation material.Described hollow arcuated fin piece 30 is curved panel, adopt thermal conductive metallic material to be made, and its inside is hollow-core construction, is marked with phase-change material 41, and ensures that this hollow-core construction is in sealed vacuum state in the hollow-core construction of described hollow arcuated fin piece 30.

Axially also be provided with at least one complex heat transfer pipe 27 along described radiator cylinder 19, described complex heat transfer pipe 27 and described hollow arcuated fin piece 30 are around connecting into a cylindrical structure not sealing, and the central shaft of described complex heat transfer pipe 27 and the central axes of hollow arcuated fin piece; Complex heat transfer pipe 27 is with hollow arcuated fin piece 30 around connecting into a cylindrical structure, and its cross section is an annulus not sealing, and its object is to leave the space of expanding with heat and contract with cold to hollow arcuated fin piece 30, has eliminated potential safety hazard.

Described cool-heat-exchanger 18 is arranged on cylindrical structure center, and described complex heat transfer pipe 27 is communicated with extraneous thermal source, and described cool-heat-exchanger 18 is communicated with extraneous heating turnover tracheae.Described cool-heat-exchanger 18 is sealed structure for rectangular box, at the vertical direction of described body structure and some mutually penetrating tubules that longitudinally distribute, such design, while not only having expanded hollow arcuated fin piece 30 heat loss through radiation and the area of cool-heat-exchanger 18 exchange heat, make again the air draught speed that enters cool-heat-exchanger 18 obtain buffering, thereby improve the heating effect of cool-heat-exchanger 18 simultaneously.

As accompanying drawing 9a and accompanying drawing 9b, described complex heat transfer pipe 27 is one, and described hollow arcuated fin piece 30 is a slice, and a described complex heat transfer pipe 27 and the hollow arcuated fin piece 30 of a slice are around connecting into a cylindrical structure not sealing.

As shown in Figure 1, described complex heat transfer pipeline 27 is one, and described hollow arcuated fin piece 30 is two, a described complex heat transfer pipeline 27 respectively with two hollow arcuated fin pieces 30 around connecting into a cylindrical structure not sealing.Shown in Fig. 1, be the Cross section Design shape of the cylindrical structure that do not seal, the top of the two hollow arcuated fin pieces 30 in left and right does not connect, and between the top of described two hollow arcuated fin pieces 30, leaves space.

As accompanying drawing 10a and accompanying drawing 10b, described complex heat transfer pipeline 27 is more than two or two, described hollow arcuated fin piece 30 is more than two or two, and described multiple complex heat transfer pipelines 27 and multiple hollow arcuated fin piece 30 spaces are around connecting into a cylindrical structure not sealing.

Described phase-change material 41 raw materials are potassium sulfate (chemical pure), potassium bichromate (chemical pure), redistilled water.Proportioning: potassium sulfate percent 0.5, potassium bichromate percent 2, redistilled water 97.5 percent.According to aforementioned proportion preparation, the phase-change material 41 being configured to can be vaporized at 40 DEG C.

As shown in Figure 6, described solar energy heating water tank 1 is arranged on outdoor by tank bracket 28, described solar energy heating water tank 1 with vacuum heat collection pipe 2 by pipeline communication, the water in can heating solar heat collection water tank 1 under sunshine, feedwater air-conditioning provides thermal source.Be provided with water inlet pipe 6 on described solar energy heating water tank 1 top, can, by water inlet pipe 6 toward the interior interpolation water of solar energy heating water tank 1, be provided with drainpipe 15 in the bottom of described solar energy heating water tank 1, can the water in solar energy heating water tank 1 be discharged by drainpipe 15.

Radiator cylinder 19 and water air-conditioning are in conjunction with the water air-conditioning system of the Novel radiator cylinder of design, comprise solar energy heating water tank 1 and radiator cylinder 19, one end of described solar energy heating water tank 1 is connected with thermal source outlet pipe 20, described solar energy heating water tank 1 other end is connected with thermal source return pipe 21, described thermal source outlet pipe 20 is connected with the water inlet end of pipeline water knockout drum 25 with after circulating pump 23 serial connections, the water side (bypass end) of described pipeline water knockout drum 25 is connected with complex heat transfer pipe 27 water inlet ends, the water side of described complex heat transfer pipe 27 is connected with the water inlet end (bypass end) of pipeline water collector 26, the water side of described pipeline water collector 26 is connected in series with booster pump 29, be back to solar energy heating water tank 1 by thermal source return pipe 21 again.The booster pump 29 being connected with in the water side of described pipeline water collector 26, has reduced the vibrations of system effectively, makes its stable working, noise little.Be connected with miniature air bleeding valve 34 in the water side of described complex heat transfer pipe 27, be mainly used in the exhaust of complex heat transfer pipe 27, guaranteed the inner normal water circulation heat transfer of complex heat transfer pipe 27.Described complex heat transfer pipe 27 water inlet ends are connected with flow control valve 33, for regulating the flow of inlet water size of radiator cylinder 19.

The described port at supply fan 11 pipelines is provided with filter screen, can prevent that object is sucked into pipeline, has guaranteed the security of system; The described port at exhaust fan 24 pipelines is provided with wind deflector, can adjust the direction that heats of thermal current when use.Overcome the phenomenon that existing superconducting liquid radiator is prone to indoor " cold-zone " " hot-zone " in the time of initial heating.

Described pipeline reversal valve 16 is three-way pipeline, and can intelligence open and close any one in three passages.When two positive terminals of described pipeline reversal valve 16 are opened simultaneously, bypass end is in closed condition, bypass end is in the time opening, one of them port (inlet end) in two positive terminals is in closed condition, the inlet end of described cool-heat-exchanger 18 is connected with the positive terminal of a side of pipeline reversal valve 16, the positive terminal of opposite side of described pipeline reversal valve 16 is connected with supply fan 11, and the bypass end of described pipeline reversal valve 16 is connected with ventilation fan 13; The outlet side of described cool-heat-exchanger 18 is connected with exhaust fan 24.

Start circulating pump 23, flow of hot water in solar energy heating water tank 1 is through complex heat transfer pipe 27, complex heat transfer pipe 27 transfers heat to hollow arcuated fin piece 30, the phase-change material 41 of hollow arcuated fin piece 30 inside is activated and steam raising produces high-temperature gas (after condensation, automatic reduction being flow back into complex heat transfer pipe 27 places), intrados by hollow arcuated fin piece 30 is to radiator cylinder 19 capsula interna heat loss through radiation, and heat is passed to the cool-heat-exchanger 18 that is placed in radiator cylinder 19 capsula internas.Now open supply fan 11 and exhaust fan 24, pass into the air of cool-heat-exchanger 18 by supply fan 11, absorb rapidly heat, the temperature of air raises rapidly, then drains into indoor heating by exhaust fan 24.

On a side inwall of solar energy heating water tank 1, be provided with Water level controller 8, self water feeding magnetic valve 5 is installed on water inlet pipe 6, the signal output part of Water level controller 8 is connected with the signal input part of self water feeding magnetic valve 5.When the water level in solar energy heating water tank 1 lower than or during higher than a certain setting value, can self water feeding or stop feedwater.Overflow pipe 7 is installed on the upper wall of described solar energy heating water tank 1, when Water level controller 8 damages maybe cannot read water level time, also or when self water feeding magnetic valve 5 supplies water ceaselessly to solar energy heating water tank 1, all unnecessary water can be discharged from overflow pipe 7.

As shown in Figure 4, in the outer wall upper end of radiator cylinder 19, intelligent switch 37 and indoor temperature transmitter 36 are installed, indoor temperature transmitter 36 is connected with intelligent switch 37, the signal output part of described indoor temperature transmitter 36 is connected with the signal input part of intelligent switch 37, and the signal output part of described intelligent switch 37 is connected with the signal input part of described flow control valve 33; That the flow setting value of described flow control valve 33 includes is little, in, large three flow readings; Described intelligent switch 37 is controlled the duty of flow control valve 33.In the time that indoor temperature transmitter 36 measures indoor temperature below or above a certain setting value, adjust the flow of flow control valve by intelligent switch 37.Thereby ensure that indoor heating temperature is suitable.

Outer wall upper end at radiator cylinder 19 is also provided with timer 39, and timer 39 is connected with intelligent switch 37, and the signal output part of described timer 39 is connected with pipeline reversal valve 16.Under system normal operation, the positive terminal in the both sides of pipeline reversal valve 16 is long opening, and the bypass end of pipeline reversal valve 16 is closed.When heating, timer 39 by set at interval of two hours transmission of signals to pipeline reversal valve 16, now one of them port (air inlet port) in supply fan 11 and the pipeline reversal valve 16 positive terminals in both sides is closed, the bypass end of ventilation fan 13 and pipeline reversal valve 16 is opened, realize intelligent switching, enter ventilation program, time of exchanging gas will continue 10 minutes.After 10 minutes, timer 39 transmission of signals, to pipeline reversal valve 16, are now opened the positive terminal inlet end mouth of supply fan 11 and pipeline reversal valve 16 again, close the bypass end of ventilation fan 13 and pipeline scavenging air valve 16, realize intelligent switching, enter heating program.When the work of this air-conditioning system, carry out intellectuality switch for warm ventilation program according to the above-mentioned cycle, wherein, the time of concrete cycle period can be set by intelligent switch 37.

In solar energy heating water tank 1, be provided with auxiliary heater 4 and temperature sensor 9, on the outer wall of solar energy heating water tank 1, be provided with temperature detect switch (TDS) 10.The signal output part of described temperature sensor 9 is connected with the signal input part of temperature detect switch (TDS) 10, and the signal output part of described temperature detect switch (TDS) 10 is connected with the signal input part of auxiliary heater 4.Temperature sensor 9 records the water temperature in solar energy heating water tank 1, and will after temperature signal conversion, input to temperature detect switch (TDS) 10.The critical-temperature of setting temperature detect switch (TDS) 10 is 40 DEG C, temperature detect switch (TDS) 10 receives after the signal from temperature sensor 9, temperature detect switch (TDS) 10 judges, while only having the temperature that records when temperature sensor 9 lower than 40 DEG C of critical-temperatures, temperature detect switch (TDS) 10 just transfers to auxiliary heater 4 by heating signal, and auxiliary heater 4 heats the water in solar energy heating water tank 1.When water temp. heating reaches a certain temperature (being temperature >=40 DEG C), signal is transferred to temperature detect switch (TDS) 10 by temperature sensor 9, and temperature detect switch (TDS) 10 transmission stop heating signal to auxiliary heater 4, and auxiliary heater 4 stops heating.In the time running into rainy weather or extreme weather, when solar energy cannot provide enough heat heat supply, can pass through the intelligent heat supply of auxiliary heater 4.

In this water air-conditioning system, the bypass end number of described pipeline water knockout drum 25 and pipeline water collector 26 is identical, each bypass end (water side) of pipeline water knockout drum 25 is connected with the water inlet end of the complex heat transfer pipe 27 of multiple radiator cylinders 19 respectively, and each bypass end (water inlet end) of pipeline water collector 26 is connected with the water side of the complex heat transfer pipe 27 of multiple radiator cylinders 19 respectively.Such connection design, can realize a solar energy heating water tank 1 and meet many water air-conditioning system heating.Accompanying drawing 7 is that three radiator cylinders 19 are placed in the enforcement illustration heating respectively in three rooms.

After the normal work of the utility model system, the water temperature of general solar energy heating in winter water tank 1 is 50 DEG C of left and right, and 40 DEG C of 41 need of phase-change material in hollow arcuated fin piece 30 in radiator cylinder 19 just can excite and pass temperature, and common hot water radiation device must reach and more than 60 DEG C just can reach biography temp effect.Now, the utility model just can heat without starting auxiliary heater 4, and power consumption is low.

System is under nominal situation, total electricity consumption 155W, wherein the electric power of supply fan 11 is 35W, the electric power of exhaust fan 24 is 45W, the electric power of circulating pump 23 is 50W, and the electric power of booster pump 29 is 30W, and auxiliary heater power is 200W (native system only just can use when in overcast and rainy or extreme weather), compared with existing household heating equipment, can using electricity wisely more than 50 percent.Radiator cylinder 19 in native system is compared with the hot water radiation of light water heating system, and its water consumption significantly reduces, and such water consumption has just guaranteed that solar energy heating water tank 1 and radiator cylinder 19 can use simultaneously, and bathing is on one side heating on one side; The minimizing of water consumption, can also greatly reduce the power consumption of circulating pump 23.As shown in Figure 7, Novel radiator cylinder 19 is used in water air-conditioning system dexterously, compared with heating with common superconducting liquid radiator, just obviously less on volume, installs more convenient.Common superconducting liquid radiator can only be arranged on indoor wall lower end to indoor heating, and this Novel radiator cylinder not only can be arranged on indoor any position, can also be arranged on outdoor.The air current circulation of radiator cylinder 19 belongs to Natural Circulation, and heating effect is good, simple in structure, takes full advantage of the energy of natural resources, meets environmental requirement.

The above is only preferred embodiment of the present utility model; be noted that for those skilled in the art; do not departing under the prerequisite of the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (8)

1. a Novel radiator cylinder, is characterized in that: described radiator cylinder (19) diametric(al) is made up of shell (32), heat-insulation layer (31), hollow arcuated fin piece (30) and cool-heat-exchanger (18) from outside to inside successively; Described hollow arcuated fin piece (30) is curved panel, and its inside is hollow-core construction, be marked with phase-change material (41), and this hollow-core construction is in sealed vacuum state in the hollow-core construction of described hollow arcuated fin piece (30); Axially also be provided with at least one complex heat transfer pipe (27) along described radiator cylinder (19), described complex heat transfer pipe (27) and described hollow arcuated fin piece (30) are around connecting into a cylindrical structure not sealing, and the central shaft of described complex heat transfer pipe (27) and the central axes of hollow arcuated fin piece, described cool-heat-exchanger (18) is arranged on cylindrical structure center; Described complex heat transfer pipe (27) is communicated with extraneous thermal source, and described cool-heat-exchanger (18) is communicated with heating turnover tracheae.

2. a kind of Novel radiator cylinder according to claim 1, it is characterized in that: described complex heat transfer pipe (27) is one, described hollow arcuated fin piece (30) is a slice, and a described complex heat transfer pipe (27) and the hollow arcuated fin piece of a slice (30) are around connecting into a cylindrical structure not sealing.

3. a kind of Novel radiator cylinder according to claim 1, it is characterized in that: described complex heat transfer pipeline (27) is one, described hollow arcuated fin piece (30) is two, a described complex heat transfer pipeline (27) respectively with two hollow arcuated fin pieces (30) around connecting into a cylindrical structure not sealing.

4. a kind of Novel radiator cylinder according to claim 1, it is characterized in that: described complex heat transfer pipeline (27) is more than two or two, described hollow arcuated fin piece (30) is more than two or two, and described multiple complex heat transfer pipelines (27) and multiple hollow arcuated fin pieces (30) space are around connecting into a cylindrical structure not sealing.

5. the water air-conditioning system based on Novel radiator cylinder described in claim 1, it is characterized in that: comprise solar energy heating water tank (1) and radiator cylinder (19), one end of described solar energy heating water tank (1) is connected with thermal source outlet pipe (20), described solar energy heating water tank (1) other end is connected with thermal source return pipe (21), described thermal source outlet pipe (20) is connected with the water inlet end of complex heat transfer pipe (27) with after circulating pump (23) serial connection, the water side of described complex heat transfer pipe (27) is connected with thermal source return pipe (21),

The inlet end of described cool-heat-exchanger (18) is connected with the positive terminal of a side of pipeline reversal valve (16), the positive terminal of opposite side of described pipeline reversal valve (16) is connected with supply fan (11), and the bypass end of described pipeline reversal valve (16) is connected with ventilation fan (13); The outlet side of described cool-heat-exchanger (18) is connected with exhaust fan (24).

6. the water air-conditioning system of Novel radiator cylinder according to claim 5, it is characterized in that: described complex heat transfer pipe (27) water inlet end is connected with pipeline water knockout drum (25), the water side of described complex heat transfer pipe (27) is connected with pipeline water collector (26), and serial connection many groups radiator cylinder (19) between described pipeline water knockout drum (25) and pipeline water collector (26).

7. the water air-conditioning system of Novel radiator cylinder according to claim 5, is characterized in that: the water side place of described complex heat transfer pipe (27) is connected with miniature air bleeding valve (34).

8. the water air-conditioning system of Novel radiator cylinder according to claim 5, is characterized in that: described complex heat transfer pipe (27) water inlet end is connected with flow control valve (33).