CN204923456U - Phase change energy storage water heater - Google Patents

Abstract

The utility model relates to a phase change energy storage water heater, including heat exchanger shell, there is the insulation material layer in the heat exchanger shell, the insulation material in situ is the inner bag, the inner bag includes the inner bag shell, the inner bag intussuseption is filled with phase change material, and phase change material's packing volume accounts for the 80% -98% of inner bag volume buried heat exchange coil among the phase change material underground evenly distributed sets up electrical heating mechanism among the phase change material be provided with temperature sensor among the phase change material, phase change material temperature sensor and electrical heating mechanism electricity are connected to the controller, and the controller is installed on heat exchanger shell. The utility model discloses a phase change energy storage water heater compact structure, heating are evenly, heat transfer performance is good, play water is efficient.

Description

A kind of phase-change accumulation energy water heater

Technical field

The utility model relates to technical field of water heaters, is specifically related to a kind of phase-change accumulation energy water heater.

Background technology

Phase-change accumulation energy water heater utilizes phase-changing energy storage material heat enthalpy value high, the advantage that energy storage density is large, by electric energy or thermal energy storage in phase-change energy storage thermal water heater phase change material, needs to be displaced with running water the heat stored in phase-change material by heat exchange coil during hot water.The characteristic that phase-change material heat enthalpy value is high determines phase-change accumulation energy water heater and has many good qualities, compared with existing storage-type electric water heater, this water heater structure is smaller and more exquisite, inner water storage is few, do not have stagnant water, the generation of scale formation can be stopped, electrical heating phase-change material, can accomplish that electric water is separated, security is good.

Current existing Heat from Low-temperature Flue Gas, water heater as described in CN203880936U, comprise evaporimeter, compressor, choke valve, heat exchange coil, coiled hot-water line etc., heat exchanger structure is complicated, in addition, in phase-change material, need to soak simultaneously and bury heat exchange coil and coiled hot-water line two kinds of coil pipes, the two is walking different medium storing, in exothermic process respectively, therefore, all relatively little with the contact area of phase-change material, affect phase-change material and store exothermal effect; The mode of electrical heating elements described in CN204084826U, phase-change material can be made to produce hot-spot, and other part material accumulation of heat is insufficient, does not even reach the problem of transformation temperature, affects phase-change material thermal storage performance; The pump circulating water heating phase-change material of water heater described in CN102654308, need to arrange water pump and water receptacle in water heater, add the complexity of water heater, reduce the space availability ratio of water heater, in addition, phase-change material is encapsulated in pipeline several containers outer, is unfavorable for the free convection of phase-change material, affects its heat-transfer effect.

Utility model content

For defect of the prior art, the utility model provides a kind of compact conformation, homogeneous heating, good heat-transfer, phase-change accumulation energy water heater that water outlet efficiency is high.

The technical solution of the utility model is: a kind of phase-change accumulation energy water heater, comprise outer cover of heat exchanger, adiabator layer is had in outer cover of heat exchanger, inner bag in described adiabator layer, described inner bag comprises liner holder, phase-change material is filled with in described inner bag, the packing volume of phase-change material accounts for the 80%-98% of inner bag volume, heat exchange coil is embedded with in described phase-change material, be uniformly distributed in described phase-change material and electric heating mechanism is set, phase-change material temperature sensor is installed in described phase-change material, phase-change material temperature sensor and electric heating mechanism are electrically connected to controller, controller is installed on outer cover of heat exchanger.

Phase-change accumulation energy water heater of the present utility model, comprises further: described heat exchange coil one end connects cold water inlet, and one end connects hot water outlet, and hot water outlet place is provided with temperature sensor, and is electrically connected to controller.

Phase-change accumulation energy water heater of the present utility model, described electric heating mechanism can be heating wire, is preferably uniformly distributed in the silica gel electric heating wire in phase-change material, Teflon heating wire or the two composite material electric heating line.

Phase-change accumulation energy water heater of the present utility model, described electric heating mechanism be uniform winding on heat exchange coil or be wrapped in heating wire and be wound around heating wire on frame, be uniformly distributed in phase-change material.

Phase-change accumulation energy water heater of the present utility model, described heating wire is exported by electric heating mechanism line and draws wiring.

Phase-change accumulation energy water heater of the present utility model, described heat exchange coil is the runner of water, is made up of some groups of U-tube serial or parallel connections.Described heat exchange coil is the light pipe/finned tube of carbon steel, stainless steel, Al and Alalloy, Copper and its alloy or composite.Described finned tube is the finned tube of machining or rolling, soldering or gas shielded arc welding or ratio-frequency welding, and fin configuration is around chip, inserted, nest plate type or sheet string type.

Phase-change accumulation energy water heater of the present utility model, described phase-change material is can the material of storage/release latent heat and part sensible heat.The various phase-change materials of described phase-change material preferably between 40-90 DEG C, comprise the phase-change material such as crystalline hydrate salt, metal and alloy type, paraffin class, non-paraffin organic, ceramic matric composite; More preferably, in above-mentioned phase-change material, add enhanced thermal conduction material, comprise metal material, graphite, CNT, foamed material.

The utility model phase-change accumulation energy water heater, described outer cover of heat exchanger can be the various profile such as cylindrical shape, cube, is preferably cube.

Phase-change accumulation energy water heater of the present utility model, wherein outer cover of heat exchanger effect is encapsulation, fixing heat-insulation layer, static controller, and the effect of exhibiting product outward appearance; Adiabator layer has insulation effect, prevents heat distribution loss; Inner bag is the phase-change energy-storage units of water heater, includes electric heating mechanism, phase-change material, heat exchange coil, temperature sensor.The accumulation of heat of phase-change accumulation energy water heater, exothermic process are all carried out in inner bag; Electric heating mechanism provides electric energy with heating phase-change material, uniform winding is on heat exchange coil or be wrapped on heating wire winding frame, is evenly positioned in phase-change material, phase-change material is heated fully, evenly, stablizes, there will not be phase-change material overheated, extend phase-change material service life; Phase-change material can storage/release latent heat and part sensible heat, and it accounts for the 80%-98% of inner bag volume, is phase-change material volumetric expansion headspace; Phase-change material is the various phase-change materials between 40-90 DEG C, comprise the phase-change material such as crystalline hydrate salt, metal and alloy type, paraffin class, non-paraffin class organic, ceramic matric composite, for improving heat conductivility, enhanced thermal conduction material can be added in the material, as metal material, graphite, CNT, foamed material etc.; Heat exchange coil is the runner of water, and be made up of some groups of U-tube series and parallels, running water enters from cold water inlet, and hot water outlet flows out, and carries out exchange heat, take away the latent heat and part sensible heat that store in phase-change material by heat exchange coil and phase-change material; Heat exchange coil material is carbon steel, stainless steel, Al and Alalloy, Copper and its alloy light pipe/finned tube or composite finned tube; Finned tube manufacturing process comprise machining or rolling, soldering or gas shielded arc welding, ratio-frequency welding, around chip, inserted, nest plate type, sheet string type etc.; Hot water outlet temperature's sensor, measures hot water effluent's temperature, starts electric heating mechanism according to this measurement value sensor; Phase-change material temperature sensor is for measuring the temperature of phase-change material, and controller controls electric heating mechanism according to this thermometer to be stopped.

Advantage of the present utility model and the technique effect obtained are:

1, the direct heating phase-change material accumulation of energy of electric heating mechanism, improves utilization rate of electrical, energy-conserving and environment-protective.

2, electric heating mechanism unit are electrical power is less, is uniformly distributed in phase-change material, phase-change material can be stablized and be heated to more than transformation temperature, store latent heat and part sensible heat, improve its amount of stored heat, phase-change material there will not be hot-spot, improves its service life.

3, be wrapped in by heating wire on winding frame, fixed by winding frame support, in the gap being inserted into heat exchange coil, processing technology is simple, homogeneous heating.

4, heat exchange coil is some groups of U-shaped coil pipe series and parallels, and be evenly embedded in phase-change material, heat exchange coil fully contacts with phase-change material, and heat in phase-change material can be discharged fast, evenly.

5, heating wire uniform winding is on heat exchange coil, can first by the phase-change material heating near heat exchange coil during heating, and phase-change material storage sensible heat is little, therefore phase-change material temperature can rise to transformation temperature very soon, stores latent heat, if user needs to use hot water less, only need heat heat exchange coil peripheral part phase-change material, cold water can take away this part heat by heat exchange coil, accomplishes to need how many heat storage how many heats, avoids the waste of heat.

6, phase-change accumulation energy water heater adopts the large phase-changing energy storage material of heat enthalpy value, and energy storage density is high, therefore compact, and compare than the heat storage water heater of identical hot water output on the market, volume reduces about 60% ~ 70%.This phase-change accumulation energy water heater structure is compact, compact, and therefore external surface area is little, decreases distributing of heat, more energy-conserving and environment-protective.

7, this phase-change accumulation energy water heater can utilize the price advantage of " paddy " electricity, fills heat, heat release during " peak " electricity during " paddy " electricity.

Accompanying drawing explanation

Fig. 1 is the left sectional view of the phase-change accumulation energy water heater of the utility model embodiment 1;

Fig. 2 is the positive view of the phase-change accumulation energy water heater of the utility model embodiment 1;

Fig. 3 is the left sectional view of the phase-change accumulation energy water heater of the utility model embodiment 2;

Fig. 4 is the positive view of the phase-change accumulation energy water heater of the utility model embodiment 2;

Fig. 5 is the phase-change accumulation energy water heater accumulation of heat curve of the utility model embodiment 1, embodiment 2;

Fig. 6 is the phase-change accumulation energy water heater exotherm of the utility model embodiment 1, embodiment 2.

Wherein in Fig. 1 and Fig. 2: 1. outer cover of heat exchanger; 2. adiabator layer; 3. inner bag; 4. liner holder; 5. phase-change material; 6. heat exchange coil; 7. electric heating mechanism; 8. phase-change material temperature sensor; 9. controller; 10. cold water water inlet; 11. hot water outlets; 12. outlet temperature sensors; 13 electric heating mechanism line outlets; 14. heating wires are wound around frame; 15 are wound around frame support.

Detailed description of the invention

For further illustrating the utility model, illustrate with the following Examples:

Embodiment 1

A kind of phase-change accumulation energy water heater, structure refers to Fig. 1, Fig. 2, comprise an outer cover of heat exchanger 1, adiabator layer 2 is had in outer cover of heat exchanger 1, it is inner bag 3 in described adiabator layer, described inner bag 3 comprises liner holder 4, inside be filled with phase-change material 5, phase-change material 5 accounts for the 80%-98% of inner bag 3 volume, heat exchange coil 6 is embedded with in described phase-change material 5, be uniformly distributed in described phase-change material 5 and electric heating mechanism 7 is set, in described phase-change material 5, phase-change material temperature sensor 8 is installed, temperature sensor 8 and electric heating mechanism 7 are electrically connected to controller 9, controller is installed on outer cover of heat exchanger 1, heat exchange coil one end connects cold water inlet 10, one end connects hot water outlet 11, hot water outlet 11 is provided with temperature sensor 12, and be electrically connected to controller 9.

Electric heating mechanism 7 is uniform winding heating wires on heat exchange coil.Heating wire exports 13 by electric heating mechanism line and draws wiring.Heating wire comprises silica gel electric heating wire, Teflon heating wire or the two composite material electric heating line.

Heat exchange coil 6 is runners of water, is made up of some groups of U-tube serial or parallel connections.Heat exchange coil is the light pipe/finned tube of carbon steel, stainless steel, Al and Alalloy, Copper and its alloy or composite.

Phase-change material is the various phase-change materials between 40-90 DEG C, comprises the phase-change material such as crystalline hydrate salt, metal and alloy type, paraffin class, non-paraffin organic, ceramic matric composite; Or in above-mentioned phase-change material, add enhanced thermal conduction material, comprise metal material, graphite, CNT, foamed material.

The operation principle of above-mentioned water heater is as follows:

When hot water outlet temperature sensor 12 is lower than setting value, manually/controller starts electric heating mechanism 7 heating phase-change material 5 automatically, when reaching setting value to temperature sensor 8 temperature, phase-change material 5 stores latent heat and part sensible heat, and controller 9 controls electric heating mechanism 7 and stops heating.When needing to use hot water, running water enters from cold water inlet 10, takes away the heat that phase-change material 5 stores, and hot water flows out for user from hot water outlet 11, to temperature sensor 8 lower than setting value, restarts electric heating mechanism 7 and heats.

Because electric heating mechanism 7 is heating wires, can uniform winding on heat exchange coil 6, therefore, first the phase-change material 5 near heat exchange coil 6 can be heated during heating, and phase-change material 5 to store sensible heat little, therefore phase-change material 5 temperature can rise to transformation temperature very soon, store latent heat, if user needs to use hot water less, only need heat heat exchange coil 6 peripheral part phase-change material 5, cold water can take away this part heat by heat exchange coil 6, accomplishes to need how many heat storage how many heats, avoids the waste of heat.

The exothermal efficiency of this water heater is tested, the testing time: on April 1st, 2015; Testing location: Beijing; Tap water temperature: 14 DEG C; Start instant heating mechanism, by the electrical power of 2kW, phase-changing energy storage material is heated to 80 DEG C, melts completely, stop heating, as shown in Figure 5; Be 5L/min with flow, water temperature is the running water heat release of 14 DEG C, test more than 40 DEG C effective that heat is greater than 85%, considerably beyond the standard of electric heater 1 grade of efficiency grade, see Fig. 6 exotherm, illustrate that the output hot water of this phase-change accumulation energy water heater concentrates on high-grade section, substantially increase the utilization rate of hot water, energy-saving effect is remarkable.

Embodiment 2

A kind of phase-change accumulation energy water heater, structure refers to Fig. 4, Fig. 5, comprise an outer cover of heat exchanger 1, adiabator layer 2 is had in outer cover of heat exchanger 1, it is inner bag 3 in described adiabator layer, described inner bag 3 comprises liner holder 4, inside be filled with phase-change material 5, phase-change material 5 accounts for the 80%-98% of inner bag 3 volume, heat exchange coil 6 is embedded with in described phase-change material 5, electric heating mechanism 7 is uniformly distributed in phase-change material 5, temperature sensor 8 is fixed in phase-change material 5, temperature sensor 8 and electric heating mechanism 7 are electrically connected to controller 9, controller is installed on outer cover of heat exchanger 1, heat exchange coil one end connects cold water inlet 10, one end connects hot water outlet 11, hot water outlet 11 is provided with temperature sensor 12, and be electrically connected to controller 9.

Electric heating mechanism 7 is that uniform winding is wound around the heating wire on frame 14 at heating wire, is evenly positioned between heat exchange coil, and is supported by winding frame support 15.Heating wire exports 13 by electric heating mechanism line and draws wiring.Heating wire is wound around frame 14 V-shaped Spiral distribution in inner bag.

Heat exchange coil 6 is runners of water, is made up of some groups of U-tube serial or parallel connections.Heat exchange coil is the light pipe/finned tube of carbon steel, stainless steel, Al and Alalloy, Copper and its alloy or composite.

Phase-change material is the various phase-change materials between 40-90 DEG C, comprises the phase-change material such as crystalline hydrate salt, metal and alloy type, paraffin class, non-paraffin organic, ceramic matric composite; Or in above-mentioned phase-change material, add enhanced thermal conduction material, comprise metal material, graphite, CNT, foamed material.

The operation principle of above-mentioned water heater is as follows:

When hot water outlet temperature sensor 12 is lower than setting value, manually/controller starts electric heating mechanism 7 heating phase-change material 5 automatically, when reaching setting value to temperature sensor 8 temperature, phase-change material 5 stores latent heat and part sensible heat, and controller 9 controls electric heating mechanism 7 and stops heating.When needing to use hot water, running water enters from cold water inlet 10, takes away the heat that phase-change material 5 stores, and hot water flows out for user from hot water outlet 11, to temperature sensor 8 lower than setting value, restarts electric heating mechanism 7 and heats.

Because electric heating mechanism 7 is heating wires, can uniform winding be wound around on frame 14 at heating wire, therefore, add can first heating wire be wrapped in man-hour and be wound around on frame 14, be then inserted in the gap of heat exchange coil, then fixed by winding frame support, processing technology is simple, homogeneous heating.

Owing to just changing the fixed form of heating wire, can not impact the storing of phase-change accumulation energy, exothermicity, as shown in Figure 5, exotherm as shown in Figure 6 for phase-change accumulation energy water heater accumulation of heat curve.

Above-described embodiment is only be described preferred embodiment of the present utility model; not scope of the present utility model is limited; under the prerequisite not departing from the utility model design spirit; the various distortion that the common engineers and technicians in this area make the technical solution of the utility model and improvement, all should fall in protection domain that claims of the present utility model determine.

Claims (11)

1. a phase-change accumulation energy water heater, it is characterized in that: comprise outer cover of heat exchanger (1), adiabator layer (2) is had in outer cover of heat exchanger (1), inner bag (3) in described adiabator layer (2), described inner bag (3) comprises liner holder (4), phase-change material (5) is filled with in liner holder (4), the packing volume of phase-change material (5) accounts for the 80%-98% of inner bag (3) volume, heat exchange coil (6) is embedded with in described phase-change material (5), be uniformly distributed in described phase-change material (5) and electric heating mechanism (7) is set, phase-change material temperature sensor (8) is provided with in described phase-change material (5), phase-change material temperature sensor (8) and electric heating mechanism (7) are electrically connected to controller (9), and controller is installed on outer cover of heat exchanger (1).

2. phase-change accumulation energy water heater according to claim 1, it is characterized in that: described heat exchange coil (6) one end connects cold water inlet (10), one end connects hot water outlet (11), hot water outlet (11) place is provided with temperature sensor (12), and is electrically connected to controller (9).

3. phase-change accumulation energy water heater according to claim 1 and 2, is characterized in that: described electric heating mechanism (7) is the heating wire of the silica gel electric heating wire be uniformly distributed in phase-change material, Teflon heating wire or the two composite.

4. phase-change accumulation energy water heater according to claim 3, is characterized in that: described electric heating mechanism (7) uniform winding, on heat exchange coil (6), is uniformly distributed in phase-change material.

5. phase-change accumulation energy water heater according to claim 3, it is characterized in that: described electric heating mechanism (7) uniform winding is wound around on frame (14) at heating wire, supported by winding frame support (15), be uniformly distributed in phase-change material.

6. phase-change accumulation energy water heater according to claim 3, is characterized in that: described heating wire exports (13) by electric heating mechanism line and draws wiring.

7. phase-change accumulation energy water heater according to claim 1 and 2, is characterized in that: described heat exchange coil (6) is the runner of water, is made up of some groups of U-tube serial or parallel connections.

8. phase-change accumulation energy water heater according to claim 7, is characterized in that: described heat exchange coil is the light pipe/finned tube of carbon steel, stainless steel, Al and Alalloy, Copper and its alloy or composite; Wherein said finned tube is the finned tube of machining or rolling, soldering or gas shielded arc welding or ratio-frequency welding, and fin configuration is around chip, inserted, nest plate type or sheet string type.

9. phase-change accumulation energy water heater according to claim 1 and 2, it is characterized in that: described phase-change material is can the material of storage/release latent heat and part sensible heat, the various phase-change materials of temperature control scope between 40-90 DEG C, comprise one or more in crystalline hydrate salt, metal and alloy type, paraffin class, non-paraffin organic, ceramic matric composite phase-change material.

10. phase-change accumulation energy water heater according to claim 9, is characterized in that: add enhanced thermal conduction material in described phase-change material, comprises one or more in metal material, graphite, CNT, foamed material.

11. phase-change accumulation energy water heaters according to claim 1 and 2, is characterized in that: described outer cover of heat exchanger (1) is cylindrical shape or cube.