CN205245862U - Take single jar of tandem type phase -change thermal structure to hold, heat radiation device - Google Patents

Abstract

The utility model discloses a take single jar of tandem type phase -change thermal structure to hold, heat radiation device, include: the heat -accumulator tank body, tandem type phase transition heat accumulation unit, exothermic coil pipe heat exchange assemblies and heater, tandem type phase transition heat accumulation unit arranges on the internal upper portion of heat -accumulator tank, the heat -accumulator tank is internal to set up exothermic coil pipe heat exchange assemblies from bottom to top, and exothermic coil pipe heat exchange assemblies is equipped with respectively entry and the export that links to each other with the both ends of utilization of energy device, the heater is arranged at the heat -accumulator tank internally, and is in exothermic coil pipe heat exchange assemblies's below. The utility model discloses increase tandem type phase transition heat accumulation unit, not only realized sensible heat and latent heat storage, more strengthened heat -accumulator tank exit temperature's stability, utilize night low -priced low ebb electric energy to heat accumulation dielectric heating in single jar, realize the heat accumulation, the tandem type phase transition heat accumulation unit at top has prolonged the exothermic settling time of heat accumulation device in jar.

Description

A kind of single tank with tandem type phase-transition heat-storage structure holds, heat-releasing device

Technical field

The utility model relates to accumulation of heat field of energy utilization, relates in particular to a kind of band tandem type phase-transition heat-storage knotSingle tank of structure holds, heat-releasing device.

Background technology

Along with the continuous deterioration of global environment, the energy rationally efficiently utilized unprecedented height referredDegree. In order to reduce dusty gas discharge, China has not only reduced coal heating in winter, meanwhile, and nightBetween trough-electricity and the effective utilization of industrial waste heat also paid close attention to widely. Regenerative apparatus can be by cheapness at nightElectric energy or industrial waste heat be converted to high temperature heat and store, the heat energy of storage can directly be utilized,For building heating, also can be that electric energy uses by thermal power transfer in peak times of power consumption.

More ripe solar energy high temperature heat utilization heat accumulation method is two tank sensible heat accumulation of heats at present, regenerative apparatus PangGreatly, system investment maintenance cost is high, in order to reduce accumulation of heat cost, and applicant's patent ZL201420138089.3Disclose a kind of single tank electric energy energy storage equipment, electric energy has been stored in single tank with the form of sensible heat, relended with soakingDo not have formula heat exchanger to realize the release of heat energy, two tank hold over systems have been saved cost, have saved space. ShouldThe accumulation of heat of patent utilization sensible heat, increases thermal baffle and reached good accumulation of energy, released energy effect, but single tank is putThe poor stability of hot outlet temperature, used heat can not get effective utilization, and utilization efficiency of heat energy is lower.

Utility model content

For the weak point existing in the problems referred to above, the utility model provides the phase transformation of a kind of band tandem type to holdSingle tank of heat structure holds, heat-releasing device.

For achieving the above object, the utility model provide a kind of single tank with tandem type phase-transition heat-storage structure hold,Heat-releasing device, comprising: accumulation of heat tank body, tandem type phase transition heat accumulation unit, heat release coil heat exchange assembly and addingHot device;

Described tandem type phase transition heat accumulation unit is arranged in the top in described accumulation of heat tank body;

Described heat release coil heat exchange assembly is set in described accumulation of heat tank body from bottom to top, and described heat release coil pipe changesHot assembly is provided with the entrance and exit being connected with the two ends of energy utilization device respectively;

Described heater is arranged in described accumulation of heat tank body, and under described heat release coil heat exchange assemblySide.

As further improvement of the utility model, described heat release coil heat exchange assembly comprises and is multiplely upper and lowerThe heat release coil heat exchanger of position relationship, described heat release coil heat exchanger is single coil configuration or double helix knotStructure, and be separately positioned on the inside and outside of described tandem type phase transition heat accumulation unit, described in adjacent two, putBetween hot coil heat exchanger, be communicated with the outlet of the described heat release coil heat exchanger of topmost, the institute of footThe entrance of stating heat release coil heat exchanger is connected with the two ends of energy utilization device respectively.

As further improvement of the utility model, in described tandem type phase transition heat accumulation unit, be provided with multiple onlyPhase-transition heat-storage unit vertical, that arrange up and down, is all furnished with one described in each and puts in phase-transition heat-storage unitHot coil heat exchanger, is equipped with heat release medium inlet and heat release medium on phase-transition heat-storage unit described in eachOutlet; All described phase-transition heat-storage unit centers are furnished with steam vent.

As further improvement of the utility model, described in each, in phase-transition heat-storage unit, be all filled with oneDetermine the phase-transition heat-storage medium of fusing point.

As further improvement of the utility model, in described accumulation of heat tank body, be filled with heat storage medium.

As further improvement of the utility model, described heat release coil heat exchange assembly pipe is interior, establish pipe outsideThere is radiating fin.

As further improvement of the utility model, described energy utilization device select thermoelectric conversion device,One in heating installation or hot-water supply.

As further improvement of the utility model, described heater is connected with heating equipment, described heatingDevice is selected the one in electric heater or industrial exhaust heat heater.

Compared with prior art, the beneficial effects of the utility model are:

The disclosed a kind of single tank with tandem type phase-transition heat-storage structure of the utility model holds, heat-releasing device, increasesAdd tandem type phase transition heat accumulation unit, not only realized the storage of sensible heat and latent heat, more strengthened heat-accumulator tank and gone outThe stability of mouth temperature; Utilize the valley electricity of cheapness at night to heat storage medium heating in single tank, realization is heldHeat; The tandem type phase transition heat accumulation unit of tank inner top has extended regenerative apparatus heat release stabilization time;

In tandem type phase transition heat accumulation unit of the present utility model, be provided with multiple phase transition heat accumulation units unit, andFill the phase-transition heat-storage medium of different melting points, meet the temperature requirements of energy utilization device.

Brief description of the drawings

Fig. 1 is that the disclosed single tank with tandem type phase-transition heat-storage structure of the utility model embodiment 1 holds, putsThe structure chart that hot charging is put;

Fig. 2 is that the disclosed single tank with tandem type phase-transition heat-storage structure of the utility model embodiment 2 holds, putsThe structure chart that hot charging is put;

Fig. 3 is that the disclosed single tank with tandem type phase-transition heat-storage structure of the utility model embodiment 3 holds, putsThe structure chart that hot charging is put;

Fig. 4 is that the disclosed single tank with tandem type phase-transition heat-storage structure of the utility model embodiment 4 holds, putsThe structure chart that hot charging is put;

Fig. 5 is that the disclosed single tank with tandem type phase-transition heat-storage structure of the utility model embodiment 5 holds, putsThe structure chart that hot charging is put;

Fig. 6 is that the disclosed single tank with tandem type phase-transition heat-storage structure of the utility model embodiment 6 holds, putsThe structure chart that hot charging is put.

In figure: 1, accumulation of heat tank body; 2, steam vent; 3, the 4th heat release media outlet; 4, the 4th heat releaseMedium inlet; 5, the 3rd heat release media outlet; 6, the 3rd heat release medium inlet; 7, the second heat release mediumOutlet; 8, the second heat release medium inlet; 9, heat release coil heat exchange assembly; 9-1, the first heat release coil pipe changeHot device; 9-2, the second heat release coil heat exchanger; 9-3, the 3rd heat release coil heat exchanger; 9-4, the 4th is putHot coil heat exchanger; 10, energy utilization device; 11, the first heat release media outlet; 12 first heat releases are situated betweenMatter entrance; 13, heating equipment; 14, heating equipment entrance; 15, heater; 16, tandem type phase transformationRegenerative apparatus; 16-1, the first phase transformation thermal storage unit; 16-2, the second phase transformation thermal storage unit; 16-3, the 3rdPhase-transition heat-storage unit; 17, heating equipment outlet.

Detailed description of the invention

For making object, technical scheme and the advantage of the utility model embodiment clearer, below in conjunction withAccompanying drawing in the utility model embodiment, to the technical scheme in the utility model embodiment carry out clear,Intactly describe, obviously, described embodiment is a part of embodiment of the present utility model, instead ofWhole embodiment. Based on the embodiment in the utility model, those of ordinary skill in the art are not doingGo out the every other embodiment obtaining under the prerequisite of creative work, all belong to the utility model protectionScope.

The utility model provides that a kind of single tank with tandem type phase-transition heat-storage structure holds, heat-releasing device, comprising:Accumulation of heat tank body, tandem type phase transition heat accumulation unit, heat release coil heat exchange assembly and heater; Tandem type phase transformationRegenerative apparatus is arranged in the top in accumulation of heat tank body; Heat release coil heat exchange is set in accumulation of heat tank body from bottom to topAssembly, heat release coil heat exchange assembly is provided with the entrance and exit being connected with the two ends of energy utilization device respectively;Heater is arranged in accumulation of heat tank body, and below in heat release coil heat exchange assembly. Heat release coil heat exchangeAssembly comprises multiple heat release coil heat exchangers that are upper-lower position relation, and heat release coil heat exchanger is single-screwStructure or double-spiral structure, and be separately positioned on the inside and outside of tandem type phase transition heat accumulation unit, adjacentBetween two heat release coil heat exchangers, be communicated with, the outlet of the heat release coil heat exchanger of topmost, footThe entrance of heat release coil heat exchanger is connected with the two ends of energy utilization device respectively. Tandem type phase-transition heat-storage dressIn putting, be provided with multiple phase-transition heat-storages independent, that arrange up and down unit, uniform in each phase-transition heat-storage unitBe equipped with a heat release coil heat exchanger, on each phase-transition heat-storage unit, be equipped with heat release medium inlet and putThermal medium outlet; All phase-transition heat-storage unit centers are furnished with steam vent; In each phase-transition heat-storage unitAll be filled with the phase-transition heat-storage medium of certain fusing point, in phase-transition heat-storage unit the fusing point of phase-transition heat-storage medium fromLower supreme increase successively, is filled with heat storage medium in accumulation of heat tank body. The utility model utilizes tandem type phase transformationThe latent heat of phase change of phase-transition heat-storage medium in regenerative apparatus, extends the stabilization time of heat release temperature; This practicality is newType can realize sensible heat and latent-heat storage, has strengthened the stability of heat-accumulator tank outlet temperature, improves heat energy profitBy efficiency; In tandem type phase transition heat accumulation unit, be provided with multiple phase transition heat accumulation units unit, and filling differenceThe phase-transition heat-storage medium of fusing point, meets the temperature requirements of energy utilization device.

Below in conjunction with accompanying drawing, the utility model is described in further detail:

Embodiment 1: as shown in Figure 1, the utility model provides a kind of list with tandem type phase-transition heat-storage structureTank holds, heat-releasing device, comprising: accumulation of heat tank body 1, and tandem type phase transition heat accumulation unit 16, heat release coil pipe changesHot assembly 9 and heater 15;

In accumulation of heat tank body 1, be filled with heat storage medium;

Tandem type phase transition heat accumulation unit 16 is arranged in the top in accumulation of heat tank body 1; Phase transition heat accumulation unit 16Inside be provided with successively from bottom to up the first phase transformation thermal storage unit 16-1, the second phase transformation thermal storage unit 16-2 and the 3rdPhase-transition heat-storage unit 16-3, the first phase transformation thermal storage unit 16-1, the second phase transformation thermal storage unit 16-2 and the 3rdIn phase-transition heat-storage unit 16-3, be all filled with phase-changing energy-storing medium; Phase transformation in the first phase transformation thermal storage unit 16-1The fusing point of accumulation of energy medium is less than the fusing point of phase-changing energy-storing medium in the second phase transformation thermal storage unit 16-2, second-phaseThe fusing point that becomes phase-changing energy-storing medium in thermal storage unit 16-2 is less than phase transformation in third phase change thermal storage unit 16-3 and holdsThe fusing point of energy medium; The first phase transformation thermal storage unit 16-1, the second phase transformation thermal storage unit 16-2 and third phase becomeThe center arrangement of thermal storage unit 16-3 has steam vent 2. Wherein, the first phase transformation thermal storage unit 16-1 is provided withThe second heat release medium inlet 8 and the second heat release media outlet 7, the second phase transformation thermal storage unit 16-2 are provided withThe 3rd heat release medium inlet 6 and the 3rd heat release media outlet 5, third phase becomes thermal storage unit 16-3 and is provided withThe 4th heat release medium inlet 4 and the 4th heat release media outlet 3.

Accumulation of heat tank body 1 is provided with the first heat release medium inlet 12 and the first heat release media outlet 11, heat release dishPipe heat-exchanging component 9 comprises the first heat release coil heat exchanger 9-1, the second heat release coil heat exchanger 9-2, the 3rdHeat release coil heat exchanger 9-3 and the 4th heat release coil heat exchanger 9-4; All heat release coil heat exchangers are single spiral shellRevolve structure or double-spiral structure, wherein the first heat release coil heat exchanger 9-1 be arranged in accumulation of heat tank body 1 inPortion and two ends are connected with the first heat release medium inlet 12, the first heat release media outlet 11 respectively; The second heat releaseCoil heat exchanger 9-2 be arranged in the first phase transformation thermal storage unit 16-1 and two ends respectively with the second heat release mediumEntrance 8, the second heat release media outlet 7 are connected; The 3rd heat release coil heat exchanger 9-3 is arranged in the second phase transformationIn thermal storage unit 16-2 and two ends respectively with the 3rd heat release medium inlet 6, the 3rd heat release media outlet 5 phasesConnect; The 4th heat release coil heat exchanger 9-4 be arranged in third phase become in thermal storage unit 16-3 and two ends respectively withThe 4th heat release medium inlet 4, the 4th heat release media outlet 3 are connected. The first heat release coil heat exchanger 9-1,The second heat release coil heat exchanger 9-2, the 3rd heat release coil heat exchanger 9-3 and the 4th heat release coil heat exchanger 9-4Between interconnect; That is: the first heat release media outlet 11 is connected with the second heat release medium inlet 8, and secondHeat release media outlet 7 is connected with the 3rd heat release medium inlet 6, and the 3rd heat release media outlet 5 and the 4th is putThermal medium entrance 4 is connected; The 4th heat release media outlet 3 is connected respectively energy with the first heat release medium inlet 12The connection of amount use device 10.

Heater 15 is arranged in the bottom in accumulation of heat tank body 1, and heater 15 is by heat supply entrance 14 and confessionHot equipment 13 is connected.

Further, in heat release coil heat exchange assembly 9 pipe, pipe is outside is provided with the fin for enhanced heat exchange.

Further, energy utilization device 10 is selected in thermoelectric conversion device, heating installation or hot-water supplyOne.

Further, heater 15 is selected the one in electric heater or industrial exhaust heat heater.

Embodiment 2: as shown in Figure 2, the utility model provides a kind of list with tandem type phase-transition heat-storage structureTank holds, heat-releasing device, and the structure of this structure and embodiment 1 is basic identical, and difference is: exchange accumulation of heatThe first heat release medium inlet 12 on tank body 1 and the first heat release media outlet 11, make heat release medium from firstHeat release media outlet 11 enters, and flows out from the first heat release medium inlet 12; And then enter phase-transition heat-storageUnit.

Embodiment 3: as shown in Figure 3, the utility model provides a kind of list with tandem type phase-transition heat-storage structureTank holds, heat-releasing device, and the structure of this structure and embodiment 2 is basic identical, and difference is: accumulation of heat tank body 1The double-spiral structure heat release coil heat exchanger 9-1 at middle part changes single coil configuration into, by the first heat release media outlet11 position is upwards moved.

Embodiment 4: as shown in Figure 4, the utility model provides a kind of list with tandem type phase-transition heat-storage structureTank holds, heat-releasing device, and the structure of this structure and embodiment 1 is basic identical, and difference is: by electrical heatingChange industrial exhaust heat heating into, increased heating equipment outlet 17. Heating equipment 13 is by heating equipment entrance14 are connected with heater 15 with heating equipment outlet 17, composition heat supplying loop.

Embodiment 5: as shown in Figure 5, the utility model provides a kind of list with tandem type phase-transition heat-storage structureTank holds, heat-releasing device, and the structure of this structure and embodiment 2 is basic identical, and difference is: by electrical heatingChange industrial exhaust heat heating into, increased firing equipment outlet 17. Heating equipment 13 is by heating equipment entrance14 are connected with heater 15 with heating equipment outlet 17, composition heat supplying loop.

Embodiment 6: as shown in Figure 6, the utility model provides a kind of list with tandem type phase-transition heat-storage structureTank holds, heat-releasing device, and the structure of this structure and embodiment 3 is basic identical, and difference is: by electrical heatingChange industrial exhaust heat heating into, increased firing equipment outlet 17. Heating equipment 13 is by heating equipment entrance14 are connected with heater 15 with heating equipment outlet 17, composition heat supplying loop.

Cross heating equipment entrance 14 and be connected with heater 15 with heating equipment outlet 17, composition heat supplying loop.

The utility model discloses a kind of single tank with tandem type phase-transition heat-storage structure as shown in Figure 1 hold,The using method of heat-releasing device, comprises heat-accumulating process and exothermic process;

Heat-accumulating process: after the heat of heater 15 is absorbed by the heat storage medium in accumulation of heat tank body 1, accumulation of heat is situated betweenMatter temperature raises, and heat is upwards passed to successively the first phase transformation thermal storage unit by the heat storage medium after intensification16-1, the second phase transformation thermal storage unit 16-2, third phase become the phase-transition heat-storage medium of thermal storage unit 16-3 inside;The phase-transition heat-storage medium of inside, phase-transition heat-storage unit melts from bottom to top successively, and latent heat of phase change is stored,Until the heat storage medium in whole accumulation of heat tank body 1 becomes identical high-temperature liquid state;

Exothermic process: heat release medium enters the first heat release coil heat exchanger by the first heat release medium inlet 129-1, the heat release medium after heat absorption flows out from the first heat release media outlet 11, by the second heat release medium inlet8 enter the second heat release coil heat exchanger 9-2, and the heat release medium after heat absorption flows from the second heat release media outlet 7Go out, enter the 3rd heat release coil heat exchanger 9-3 by the 3rd heat release medium inlet 6, the heat release after heat absorption is situated betweenMatter flows out from the 3rd heat release media outlet 5, enters the 4th heat release coil pipe by the 4th heat release medium inlet 4Heat exchanger 9-4, the heat release medium after heat absorption flows out from the 4th heat release media outlet 3, completes exothermic process;

In exothermic process, in accumulation of heat tank body, first heat storage medium temperature reduces, multiple phase-transition heat-storage lists afterwardsThe regenerator temperature of unit reduces from bottom to up successively, when undergoing phase transition, all phase-transition heat-storages unit becomes when solid-state,Whole regenerative apparatus heat release finishes.

The disclosed a kind of single tank with tandem type phase-transition heat-storage structure of the utility model holds, heat-releasing device, increasesAdd tandem type phase transition heat accumulation unit, not only realized the storage of sensible heat and latent heat, more strengthened heat-accumulator tank and gone outThe stability of mouth temperature; Utilize the valley electricity of cheapness at night to heat storage medium heating in single tank accumulation of heat tank body,Realize accumulation of heat; The tandem type phase transition heat accumulation unit of tank inner top has extended regenerative apparatus heat release stabilization time.By being provided with multiple phase-transition heat-storages unit in tandem type phase transition heat accumulation unit, and filling different melting pointsPhase-transition heat-storage medium, meets the temperature requirements of energy utilization device. The utility model can realize sensible heat andLatent-heat storage, has strengthened the stability of heat-accumulator tank outlet temperature, improves utilization efficiency of heat energy.

These are only preferred embodiment of the present utility model, be not limited to the utility model, rightIn those skilled in the art, the utility model can have various modifications and variations. All in this practicalityWithin novel spirit and principle, any amendment of doing, be equal to replacement, improvement etc., all should be included inWithin protection domain of the present utility model.

Claims (8)

1. With single tank of tandem type phase-transition heat-storage structure hold, a heat-releasing device, it is characterized in that, comprising:Accumulation of heat tank body (1), tandem type phase transition heat accumulation unit (16), heat release coil heat exchange assembly (9) and heatingDevice (15);

   Described tandem type phase transition heat accumulation unit (16) is arranged in the top in described accumulation of heat tank body (1);

   Described heat release coil heat exchange assembly (9) is set in described accumulation of heat tank body (1) from bottom to top, described inHeat release coil heat exchange assembly (9) be provided with the entrance that is connected with the two ends of energy utilization device (10) respectively andOutlet;

   Described heater (15) is arranged in described accumulation of heat tank body (1), and changes in described heat release coil pipeThe below of hot assembly (9).
2. Single tank with tandem type phase-transition heat-storage structure according to claim 1 hold, heat-releasing device,It is characterized in that, described heat release coil heat exchange assembly comprises that multiple heat release coil pipes that are upper-lower position relation changeHot device, described heat release coil heat exchanger is single coil configuration or double-spiral structure, and described in being separately positioned onTandem type phase transition heat accumulation unit (16) inside and outside, adjacent two described heat release coil heat exchangers itBetween be communicated with, the outlet of the described heat release coil heat exchanger of topmost, the described heat release coil heat exchange of footThe entrance of device is connected with the two ends of energy utilization device (10) respectively.
3. Single tank with tandem type phase-transition heat-storage structure according to claim 2 hold, heat-releasing device,It is characterized in that, in described tandem type phase transition heat accumulation unit (16), be provided with multiple independent, arrange up and downPhase-transition heat-storage unit, is all furnished with a heat release coil heat exchanger in phase-transition heat-storage unit described in each,Described in each, on phase-transition heat-storage unit, be equipped with heat release medium inlet and heat release media outlet; Described in allPhase-transition heat-storage unit center is furnished with steam vent (2).
4. Single tank with tandem type phase-transition heat-storage structure according to claim 3 hold, heat-releasing device,It is characterized in that, described in each, in phase-transition heat-storage unit, be all filled with the phase-transition heat-storage medium of certain fusing point.
5. Single tank with tandem type phase-transition heat-storage structure according to claim 1 hold, heat-releasing device,It is characterized in that, in described accumulation of heat tank body (1), be filled with heat storage medium.
6. Single tank with tandem type phase-transition heat-storage structure according to claim 1 hold, heat-releasing device,It is characterized in that, described heat release coil heat exchange assembly (9) pipe is interior, pipe outside is provided with radiating fin.
7. Single tank with tandem type phase-transition heat-storage structure according to claim 1 hold, heat-releasing device,It is characterized in that, described energy utilization device (10) is selected thermoelectric conversion device, heating installation or heat supplyOne in water device.
8. Single tank with tandem type phase-transition heat-storage structure according to claim 1 hold, heat-releasing device,It is characterized in that, described heater (15) is connected with heating equipment (13), described heater (15)Select the one in electric heater or industrial exhaust heat heater.