CN207622106U - Phase-change thermal storage radiator - Google Patents

Abstract

The utility model discloses a kind of phase-change thermal storage radiators, are related to radiator technical field, including radiator shell；It is characterized in that：The radiator shell includes N number of mono-hull, and storing module is equipped in the mono-hull；Phase-change material is filled in the storing module；There are flow cavitys between the outer wall and the inner wall of mono-hull of the storing module；Further include the intake tunnel and backwater channel being connected to the flow cavity；It is equipped with module collet in the lower surface of the storing module, the lower surface of each storing module is fixedly connected with module collet.By using above-mentioned technical proposal, the utility model utilizes the thermal storage performance of phase-change material, when heat supply, heating water phase-change material while heat supply absorbs thermal energy and is stored, when phase-change material heat accumulation reaches saturation, heater heating device stops heating, and water circulating pump is out of service to discharge thermal energy in time by phase-change material, provides heat source for the medium in radiator and then ensures the stationarity of room temperature.

Description

Phase-change thermal storage radiator

Technical field

The utility model is related to radiator technical fields, more particularly to a kind of phase-change thermal storage radiator.

Background technology

It is well known that heating is divided into hot-water heating and hot air heating, usually said radiator refers to hot-water heating, is exactly to utilize wall-hung boiler Or boiler heat cycles water, then radiator is linked to by tubing, suitable temperature is exported eventually by radiator, is formed The indoor temperature difference, finally carrying out thermal cycle makes entire indoor temperature uniformly rise.And hot air heating is added in heating equipment (boiler) Heat passes through the processed water of water treatment facilities, makes its evaporation, room heat supply is given by radiator using the vapor of evaporation.Water Heat is transmitted to radiator by steam in radiator in the form of convection current, and radiator is by the heat conduction of itself, by heat from inner wall Pass to outer wall, the air of outer wall heating space by convection, while the wall (wall for including in heating space in the form of radiation Body, furniture, human body etc.).The temperature in room is set to be increased to certain temperature.

Currently, traditional radiator inner wall is a water circulation channel, while often being taken to save money user It is very not cold not warm oneself or expense is reduced using low temperature heating mode, therefore in order to ensure the constant of indoor temperature, simultaneously The utilization rate for improving the energy, designs and develops radiator that is a kind of not only energy saving but also efficiently warming oneself seems it is particularly important.

Utility model content

The technical problems to be solved in the utility model is：A kind of phase-change thermal storage radiator is provided, the phase-change thermal storage radiator Using the thermal storage performance of phase-change material, when heat supply, heating water phase-change material while heat supply absorbs thermal energy and is stored, when When phase-change material heat accumulation reaches saturation, heater heating device stops heating, and water circulating pump is out of service to be released in time by phase-change material Heat release energy provides heat source for the medium in radiator and then ensures the stationarity of room temperature.

The utility model is adopted the technical scheme that solve technical problem present in known technology：

A kind of phase-change thermal storage radiator, including radiator shell (1)；Its feature as：The radiator shell (1) includes N number of mono-hull (4), the mono-hull (4) are equipped with charge door (12), storing module (5) are equipped in each mono-hull (4)；Institute It states and is filled with phase-change material in storing module (5)；Between the outer wall and the inner wall of mono-hull (4) of the storing module (5) there are Flow cavity；Further include the intake tunnel and backwater channel being connected to the flow cavity；N is the natural number more than zero.

Further：It is equipped with module collet (6) in the lower surface of the storing module (5), each storing module (5)

Lower surface is fixedly connected with module collet (6).

Further：Be provided with upper capping (2) above the radiator shell (1), the side of the upper capping (2) with warm up The upper surface of gas piece shell (1) is fixedly connected, lower surface and radiator shell (1) of the intake tunnel by upper capping (2) Upper surface is surrounded.

Further：Be provided with lower capping (3) below the radiator shell (1), the side of the lower capping (3) with warm up The lower surface of gas piece shell (1) is fixedly connected, under upper surface and module collet (6) of the backwater channel by lower capping (3) Surface is surrounded, and the lower capping (3) is equipped with the reserved opening (14) welded with charge door (12), and the reserved opening (14) is M, M is the natural number more than zero.

Further：It is not contacted between the outer wall and the inner wall of mono-hull (4) of the storing module (5), the storing module (5) it is Q, Q is the natural number more than zero.

Further：It is provided with material temperature in any storing module (5) and pops one's head in (20).

Further：The material temperature probe (20) is electrically connected by data connecting line (21) with intelligence sensor (22)；It is described Intelligence sensor (22) passes through wired or wireless carry out signal transmission with power-supply controller of electric (23).

Further：The structure and combination of shapes of the storing module (5) and mono-hull (4) are one of following state：

The inner cavity of situation one, the shell of the storing module (5) and mono-hull (4) is rectangle；The storing module (5) Shell and the inner wall of mono-hull (4) do not contact；

The inner cavity of situation two, the shell of the storing module (5) and mono-hull (4) is rectangle；The storing module (5) The hollow cavity for being provided centrally with rectangle, the inner wall of the shell of the storing module (5) and mono-hull (4) is in close contact；

Situation three, the mono-hull (4) inner cavity be rectangle, the storing module (5) is multiple, and each storing mould Block (5) is cylindrical structure, is not in contact with each other between multiple storing modules (5), the shell and mono-hull of the storing module (5) (4) inner wall does not contact；

The inner cavity of situation four, the shell of the storing module (5) and mono-hull (4) is cylinder；The storing module (5) the hollow cavity for being provided centrally with cylinder, the shell of the storing module (5) and the inner wall of mono-hull (4) are in close contact；

Situation five, the mono-hull (4) inner cavity be rectangle, storing module (5) only one, and the storing module (5) it is cylindrical structure, the shell of the storing module (5) and the inner wall of mono-hull (4) do not contact；

The inner cavity of situation six, the shell of the storing module (5) and mono-hull (4) is cylinder；The storing module (5) inner wall of shell and mono-hull (4) does not contact；

The inner cavity of situation seven, the shell of the storing module (5) and mono-hull (4) is diamond shape；The storing module (5) Shell and the inner wall of mono-hull (4) do not contact；

The inner cavity of situation eight, the shell of the storing module (5) and mono-hull (4) is rectangle；The storing module (5) A lateral wall be fixedly connected with a madial wall of mono-hull (4), other three side walls of the mono-hull (4) are provided with Insulating layer (7).

Further：Mono-hull (4) madial wall is fixedly connected with cutoff board (9), and the cutoff board (9) is P,

P is natural number.

Further：The storing module (5) is internal or external to be provided with the heat exchange being connected to intake tunnel and backwater channel Water

It manages (8).

Further：The heat exchanging water pipe (8) is a more parallel water pipes either bending water pipe.

Further：Material mouth capping (13) is installed, material mouth capping (13) is with charge door (12) on the charge door (12) Activity connection structure.

Further：Material mouth capping (13) is installed, the charge door (12) covers with material mouth on the charge door (12) (13) it is one-pass molding closing welding, does not design the reserved opening (14) on lower capping (3) at this time.

The utility model has the advantages and positive effects of：

By using above-mentioned technical proposal, the utility model utilizes the thermal storage performance of phase-change material, when heat supply, heating water Phase-change material absorbs thermal energy and is stored while heat supply, and when phase-change material heat accumulation reaches saturation, heater heating device stops It only heats, water circulating pump is out of service to discharge thermal energy in time by phase-change material, provides heat source for the medium in radiator and then protects Demonstrate,prove the stationarity of room temperature.

Description of the drawings

Fig. 1 is the structure chart of the utility model first preferred embodiment；

Fig. 2 is the local structural graph of the utility model first preferred embodiment；It is mainly used for display module collet and monoshell The structural relation of body；

Fig. 3 to Fig. 9 is the local structural graph of the first preferred embodiment of utility model：It is mainly used for showing a variety of of storing module Structure and shape；

Figure 10 is the lower structure chart covered in the preferred embodiment in the utility model；

Figure 11 is the local structural graph of the first preferred embodiment of utility model：It is mainly used for showing auto temperature controlled system structure；

Figure 12 is the local structural graph of the second preferred embodiment of the utility model；It is mainly used for showing storing module and monoshell The structural relation of body；

Figure 13 is the structure chart of the second preferred embodiment of the utility model；

Figure 14 is the structure chart of the utility model third preferred embodiment；

Figure 15 is the structure chart of the 4th preferred embodiment of the utility model；

Figure 16 is the structure chart of the 5th preferred embodiment of the utility model；

Figure 17 is the structure chart of the 6th preferred embodiment of the utility model；

Wherein：1, radiator shell；2, upper capping；3, lower capping；4, mono-hull；5, storing module；6, module collet；7、 Insulating layer；8, heat exchanging water pipe；9, cutoff board；10, intake tunnel；11, backwater channel；12, charge door；13, material mouth covers；14、 Reserved opening；15, heat exchanger tube water inlet；16, heat exchanger tube water outlet；17, pedestal；18, upper and lower water passage；19, material temperature probe protection Pipe；20, material temperature is popped one's head in；21, data connecting line；22, material temperature sensor；23, power-supply controller of electric

Specific implementation mode

For that can further appreciate that the utility model content, feature and effect of the utility model, the following examples are hereby given, and It is described in detail with the accompanying drawings as follows：

It please refers to Fig.1 to Fig.3, a kind of phase-change thermal storage radiator, including radiator shell 1；The radiator shell 1 includes One or N number of mono-hull 4, the mono-hull 4 are equipped with charge door 12, and charge door 12 is equipped with material mouth and covers 13, each monoshell Storing module 5 is equipped in body 4；Phase-change material is filled in the storing module 5；It is described that material temperature spy is embedded in storing module 5 Head protection pipe 19, is equipped with material temperature probe 20 in material temperature probe protection tubes 19, and material temperature probe 20 passes through data connecting line 21 and material Temperature sensor 22 is electrically connected, and material temperature sensor 22 carries out data interaction, institute by wired or wireless way and power-supply controller of electric 23 State between the outer wall of storing module 5 and the inner wall of mono-hull 4 that there are flow cavitys；Further include be connected to the flow cavity into Aquaporin and backwater channel；N is the natural number more than zero；

It is equipped with module collet 6, lower surface and the module collet 6 of each storing module 5 in the lower surface of the storing module 5 It is fixedly connected.

Be provided with upper capping 2 above the radiator shell 1, side and the radiator shell 1 of the upper capping 2 it is upper Surface is fixedly connected, and the intake tunnel is surrounded by the lower surface of upper capping 2 and the upper surface of radiator shell 1.

Lower capping 3 is provided with below the radiator shell 1, under side and the radiator shell 1 of the lower capping 3 Surface is fixedly connected, and the backwater channel is surrounded by the upper surface of lower capping 3 and the lower surface of module collet 6.

Fig. 4 is please referred to Fig. 9：

The structure and combination of shapes of the storing module 5 and mono-hull 4 are one of following state：

The inner cavity of situation one, the shell of the storing module 5 and mono-hull 4 is rectangle；The shell of the storing module 5 It is not contacted with the inner wall of mono-hull 4；

The inner cavity of situation two, the shell of the storing module 5 and mono-hull 4 is rectangle；The center of the storing module 5 It is provided with the hollow cavity of rectangle, the shell of the storing module 5 and the inner wall of mono-hull 4 are in close contact；

Situation three, the mono-hull 4 inner cavity be rectangle, the storing module 5 is multiple, and each storing module 5 For cylindrical structure, it is not in contact with each other between multiple storing modules 5, the shell of the storing module 5 and the inner wall of mono-hull 4 do not connect It touches；

The inner cavity of situation four, the shell of the storing module 5 and mono-hull 4 is cylinder；In the storing module 5 The heart is provided with cylindrical hollow cavity, and the shell of the storing module 5 and the inner wall of mono-hull 4 are in close contact；

Situation five, the mono-hull 4 inner cavity be rectangle, 5 only one of storing module, and the storing module 5 be circle Column structure, the shell of the storing module 5 and the inner wall of mono-hull 4 do not contact；

The inner cavity of situation six, the shell of the storing module 5 and mono-hull 4 is cylinder；Outside the storing module 5 Shell and the inner wall of mono-hull 4 do not contact；

The inner cavity of situation seven, the shell of the storing module 5 and mono-hull 4 is diamond shape；The shell of the storing module 5 It is not contacted with the inner wall of mono-hull 4；

The inner cavity of situation eight, the shell of the storing module 5 and mono-hull 4 is rectangle；One of the storing module 5 Lateral wall is fixedly connected with a madial wall of mono-hull 4, other three side walls of the mono-hull 4 are provided with insulating layer 7, It can be not provided with insulating layer.

Referring to Fig. 10, it is lower capping 3 on offer flow by N number of lower capping reserved opening 14；

It is not contacted between the outer wall and the inner wall of mono-hull 4 of the storing module 5.At this point, the outer wall and list of storing module 5 Tetra- water stream channels to communicate with each other of A, B, C, D are formed between the inner wall of shell 4；The storing module 5 is at least 1 or more It is a.

Material mouth capping 13 is installed on the charge door 12.

Water cycle process in above preferred embodiment is：Supplying hot water enters intake tunnel 10 from water inlet E first, then Hot water enters backwater channel 11 afterwards by flow cavity (flow cavity is upper and lower water passage 18), and heat supply is back to from water outlet F Water pipe, when hot water is in flow cavity, hot water carries out heat exchange by mono-hull 4 and storing module 5, and material temperature probe 20 is by material temperature Signal passes to intelligence sensor 22 by data connecting line 21, and intelligence sensor 22 is believed material temperature by wired or wireless way Number it is transferred to power-supply controller of electric 23, when material temperature signal reaches upper threshold value, then power-supply controller of electric 23 is cut off the power, heating dress Set stopping heating, water circulating pump is out of service to discharge thermal energy in time by phase-change material, for the medium in radiator provide heat source into And ensure the stationarity of room temperature, when phase-change material cannot meet heating water required temperature heat-exchange temperature, material temperature probe 20 will be low Warm signal passes to intelligence sensor 22 by data connecting line 21, and intelligence sensor 22 is by wired or wireless way by low temperature Signal transmission starts to power-supply controller of electric 23, power-supply controller of electric 23, and air heater continues to heat, and water circulating pump starts operation, Fully demonstrate the effect of energy-saving constant-temperature.

Please refer to Fig.1 1 to Figure 17, a kind of phase-change thermal storage radiator, including radiator shell 1；The radiator shell 1 wraps N number of mono-hull 4 is included, has in the mono-hull 4 in 12 each mono-hull 4 of charge door and is equipped with storing module 5；The storing module 5 It is interior to be filled with phase-change material；It is described to have material temperature probe protection tubes 19 in storing module 5, it is set in material temperature probe protection tubes (19) There are material temperature probe 20, material temperature probe 20 to be connect with material temperature sensor 22 by data connecting line 21, material temperature sensor 22 is by having Line or wireless mode are connect with power-supply controller of electric 23, and there are flows between the outer wall and the inner wall of mono-hull 4 of the storing module 5 Cavity；Further include the intake tunnel and backwater channel being connected to the flow cavity；N is the natural number more than zero.

It is equipped with module collet 6, lower surface and the module collet 6 of each storing module 5 in the lower surface of the storing module 5 It is fixedly connected.

Be provided with upper capping 2 above the radiator shell 1, side and the radiator shell 1 of the upper capping 2 it is upper Surface is fixedly connected, and the intake tunnel is surrounded by the lower surface of upper capping 2 and the upper surface of radiator shell 1.

Lower capping 3 is provided with below the radiator shell 1, under side and the radiator shell 1 of the lower capping 3 Surface is fixedly connected, and the backwater channel is surrounded by the upper surface of lower capping 3 and the lower surface of module collet 6.Lower capping 3 On offer flow by M lower cover reserved openings 14；M is the natural number more than zero；

It is described to have material temperature probe protection tubes 19 in storing module 5, material temperature probe is equipped in material temperature probe protection tubes 19 20, material temperature probe 20 is connect by data connecting line 21 with material temperature sensor 22, and material temperature sensor 22 passes through wired or wireless side Formula is connect with power-supply controller of electric 23.

The storing module 5 is Q, is provided with and intake tunnel and backwater channel inside or outside the storing module 5 The heat exchanging water pipe 8 of connection.Q is the natural number more than zero.

The heat exchanging water pipe 8 is a more parallel water pipes either bending water pipe.The both ends of water pipe be heat exchanger tube into The mouth of a river 15 and heat exchanger tube water outlet 16；

Material mouth capping 13 is installed on the charge door 12.

Water cycle process in above preferred embodiment is：Supplying hot water enters intake tunnel 10 from water inlet E first, then Hot water enters backwater channel 11 by heat exchanging water pipe 8 and/or up and down after water passage 18, and heater, hot water are back to from water outlet F In heat exchanging water pipe 8 heat exchange is carried out with phase-change material；When material temperature probe 20 passes temperature signal of satisfying by data connecting line 21 Intelligence sensor 22 is passed, intelligence sensor 22 gives material temperature saturation temperature signal transmission to power supply control by wired or wireless way Device 23 processed, power-supply controller of electric 23 are cut off the power, and heater heating device stops heating, water circulating pump it is out of service by phase-change material and When discharge thermal energy, for the medium in radiator provide heat source so that ensure room temperature stationarity, when phase-change material cannot meet it is warm When air water required temperature heat-exchange temperature, low-temperature signal is passed to intelligence sensor by material temperature probe 20 by data connecting line 21 22, low-temperature signal is transferred to power-supply controller of electric 23 by intelligence sensor 22 by wired or wireless way, and power-supply controller of electric 23 opens Dynamic, air heater continues to heat, and water circulating pump starts operation, fully demonstrates the effect of energy-saving constant-temperature.

3 to Figure 15 are please referred to Fig.1, on the basis of above preferred embodiment, in order to increase between flow and phase-change material Heat exchanger effectiveness, the inner cavity of each mono-hull 4 is provided with multiple cutoff boards 9, such flow is walked in mono-hull 4 at labyrinth State increases the heat exchanger time of flow and phase-change material, and then improves the efficiency of heat exchange.

The embodiments of the present invention are described in detail above, but the content is only the preferable of the utility model Embodiment should not be considered as limiting the scope of the present invention.It is made according to the scope of application of this utility model equal Deng variation and improvement etc., should all still belong within the patent covering scope of the utility model.

Claims (13)

1. a kind of phase-change thermal storage radiator, including radiator shell (1)；Its feature as：The radiator shell (1) includes N A mono-hull (4), the mono-hull (4) are equipped with charge door (12), storing module (5) are equipped in each mono-hull (4)；It is described Phase-change material is filled in storing module (5)；There are water between the outer wall and the inner wall of mono-hull (4) of the storing module (5) Flow cavity；Further include the intake tunnel and backwater channel being connected to the flow cavity；N is the natural number more than zero.

2. phase-change thermal storage radiator according to claim 1, it is characterised in that：In the lower surface of the storing module (5) Equipped with module collet (6), the lower surface of each storing module (5) is fixedly connected with module collet (6).

3. phase-change thermal storage radiator according to claim 2, it is characterised in that：It is set above the radiator shell (1) It is equipped with capping (2), the side of the upper capping (2) is fixedly connected with the upper surface of radiator shell (1), the intake tunnel It is surrounded by the lower surface of upper capping (2) and the upper surface of radiator shell (1).

4. phase-change thermal storage radiator according to claim 2, it is characterised in that：It is set below the radiator shell (1) It is equipped with lower capping (3), the side of the lower capping (3) is fixedly connected with the lower surface of radiator shell (1), the backwater channel It is surrounded by the upper surface of lower capping (3) and the lower surface of module collet (6), the lower capping (3) is equipped with and charge door (12) reserved opening (14) welded, the reserved opening (14) are M, and M is the natural number more than zero.

5. according to claim 1-4 any one of them phase-change thermal storage radiators, it is characterised in that：The storing module (5) It is not contacted between outer wall and the inner wall of mono-hull (4), the storing module (5) is Q, and Q is the natural number more than zero.

6. phase-change thermal storage radiator according to claim 5, it is characterised in that：It is provided in any storing module (5) Material temperature pops one's head in (20).

7. phase-change thermal storage radiator according to claim 6, it is characterised in that：The material temperature probe (20) is connected by data Wiring (21) is electrically connected with intelligence sensor (22)；The intelligence sensor (22) passes through wired or nothing with power-supply controller of electric (23) Line carries out signal transmission.

8. phase-change thermal storage radiator according to claim 7, it is characterised in that：The storing module (5) and mono-hull (4) Structure and combination of shapes be one of following state：

The inner cavity of situation one, the shell of the storing module (5) and mono-hull (4) is rectangle；Outside the storing module (5) Shell and the inner wall of mono-hull (4) do not contact；

The inner cavity of situation two, the shell of the storing module (5) and mono-hull (4) is rectangle；In the storing module (5) The heart is provided with the hollow cavity of rectangle, and the shell of the storing module (5) and the inner wall of mono-hull (4) are in close contact；

Situation three, the mono-hull (4) inner cavity be rectangle, the storing module (5) is multiple, and each storing module (5) it is cylindrical structure, is not in contact with each other between multiple storing modules (5), the shell and mono-hull (4) of the storing module (5) Inner wall do not contact；

The inner cavity of situation four, the shell of the storing module (5) and mono-hull (4) is cylinder；The storing module (5) It is provided centrally with cylindrical hollow cavity, the shell of the storing module (5) and the inner wall of mono-hull (4) are in close contact；

Situation five, the mono-hull (4) inner cavity be rectangle, storing module (5) only one, and the storing module (5) is Cylindrical structure, the shell of the storing module (5) and the inner wall of mono-hull (4) do not contact；

The inner cavity of situation six, the shell of the storing module (5) and mono-hull (4) is cylinder；The storing module (5) Shell and the inner wall of mono-hull (4) do not contact；

The inner cavity of situation seven, the shell of the storing module (5) and mono-hull (4) is diamond shape；Outside the storing module (5) Shell and the inner wall of mono-hull (4) do not contact；

The inner cavity of situation eight, the shell of the storing module (5) and mono-hull (4) is rectangle；The one of the storing module (5) A lateral wall is fixedly connected with a madial wall of mono-hull (4), other three side walls of the mono-hull (4) are provided with heat preservation Layer (7).

9. phase-change thermal storage radiator according to claim 8, it is characterised in that：Mono-hull (4) madial wall, which is fixed, to be connected Cutoff board (9) is connect, the cutoff board (9) is P, and P is natural number.

10. phase-change thermal storage radiator according to claim 9, it is characterised in that：The storing module (5) is internal or external It is provided with the heat exchanging water pipe (8) being connected to intake tunnel and backwater channel.

11. phase-change thermal storage radiator according to claim 10, it is characterised in that：The heat exchanging water pipe (8) is more flat A capable water pipe either bending water pipe.

12. phase-change thermal storage radiator according to claim 11, it is characterised in that：Material is installed on the charge door (12) Mouth capping (13), it is activity connection structure that material mouth, which covers (13) with charge door (12),.

13. phase-change thermal storage radiator according to claim 11, it is characterised in that：Material is installed on the charge door (12) Mouth capping (13), the charge door (12) are closed for one-pass molding with material mouth capping (13) and are welded, and do not design lower capping (3) at this time On reserved opening (14).