CN109186297A - Uninterrupted phase-changing energy-storing and heat-exchange system - Google Patents

Abstract

The invention discloses a kind of uninterrupted phase-changing energy-storing and heat-exchange systems, this system includes several phase-changing energy-storings and heat exchange unit, the unit includes first, second plate and third plate type heat exchange piece, two semiclosed sealing rings, totally-enclosed sealing ring and phase-change material, three pieces of plate type heat exchange piece arranged for interval and quadrangle are equipped with through-hole, first semiclosed sealing ring, which is set between first and second plate type heat exchange piece, makes lower through-hole on side straight-through, lower through-hole is connected to enclosure space on the other side, totally-enclosed sealing ring, which is set to, to be made quadrangle through-hole straight-through and forms totally-enclosed space between plate between second and third plate type heat exchange piece, phase-change material is set in totally-enclosed space, second semiclosed sealing ring is reversely set to the third plate type heat exchange piece other side, three pieces of plate type heat exchange pieces respectively constitute cold fluid runner and hot fluid runner through semiclosed and totally-enclosed sealing ring.This system increases the coefficient of heat transfer, realizes and stores exothermic quick response, so that energy can flexible reasonable distribution.

Description

Uninterrupted phase-changing energy-storing and heat-exchange system

Technical field

The present invention relates to a kind of uninterrupted phase-changing energy-storing and heat-exchange systems.

Background technique

Traditional heat exchanger can not energy storage, be merely capable of carry out heat exchange, and heat provide with consumption two in terms of deposit In the uncoordinated of the time and space, when needed without enough heats, and there is a large amount of heat when unwanted Amount is lost among cold fluid, causes the more serious wasting of resources.Furthermore existing energy-storage system cold fluid and hot fluid cannot be simultaneously Work, energy cannot be supplied in time, there is energy supply conflict over time and space；Fluid is easy condensation and deteriorates and change simultaneously Heat reduces the heat exchange efficiency and service life of heat exchanger, seriously affects using energy source.

Summary of the invention

Technical problem to be solved by the invention is to provide a kind of uninterrupted phase-changing energy-storing and heat-exchange system, this system will be changed Heat function combines with accumulation of energy function, and simple and compact for structure, material and infrastructure cost are cheap, increases the coefficient of heat transfer, reduces Occupied area, so that energy flexible reasonable distribution over time and space.

In order to solve the above technical problems, the uninterrupted phase-changing energy-storing of the present invention and heat-exchange system include several phases stacked gradually Become accumulation of energy and heat exchange unit, the phase-changing energy-storing and heat exchange unit include the first plate type heat exchange piece, the second plate type heat exchange piece, third Plate type heat exchange piece, the first semiclosed sealing ring, the second semiclosed sealing ring, totally-enclosed sealing ring and phase-change material, described first Plate type heat exchange piece, the second plate type heat exchange piece and third plate type heat exchange piece respectively successively it is spaced and parallel arrangement and quadrangle be respectively equipped with Through-hole, the first semiclosed sealing ring are set between first plate type heat exchange piece and the second plate type heat exchange piece and make first Plate type heat exchange piece is led directly to the upper lower through-hole of the second plate type heat exchange piece side, the upper lower through-hole of the other side is connected to by semiclosed sealing The enclosure space that ring is constituted, the totally-enclosed sealing ring are set between second plate type heat exchange piece and third plate type heat exchange piece simultaneously And keeping the through-hole of the second plate type heat exchange piece and third plate type heat exchange piece quadrangle straight-through, the totally-enclosed sealing ring is in second plate Totally-enclosed space is formed between formula heat exchanger fin and third plate type heat exchange piece, the phase-change material is set in the totally-enclosed space, The second semiclosed sealing ring be set to the third plate type heat exchange piece the other side and with the described first semiclosed sealing ring Position on the contrary, the upper lower through-hole of first plate type heat exchange piece, the second plate type heat exchange piece and third plate type heat exchange piece side passes through The semiclosed sealing ring is connected to totally-enclosed sealing ring constitutes cold fluid runner, first plate type heat exchange piece, second board-like Heat exchanger fin is connected to structure with totally-enclosed sealing ring through the semiclosed sealing ring with the upper lower through-hole of the third plate type heat exchange piece other side At hot fluid runner.

Further, several phase-changing energy-storings stacked gradually and heat exchange unit by plate type heat exchange piece, semiclosed sealing ring, Plate type heat exchange piece, totally-enclosed sealing ring sequence are laminated.

Further, first plate type heat exchange piece, the second plate type heat exchange piece and third plate type heat exchange piece surface are respectively equipped with It is embedded in the groove of the semiclosed sealing ring or totally-enclosed sealing ring, and by semiclosed sealing ring or totally-enclosed sealing collar At closing plate face be equipped with deflector line and herringbone ripple, the deflector line is located at first plate type heat exchange piece, the second plate The both ends of formula heat exchanger fin and third plate type heat exchange piece closing plate face, the herringbone ripple is between the deflector line.

Further, the deflector line and herringbone ripple are obtained and are integrally formed using punching press.

Further, the semiclosed sealing ring and totally-enclosed sealing ring are EPT rubber packing rings.

Further, this system further includes front end-plate and end plate, and the front end-plate and end plate are respectively arranged on described several The phase-changing energy-storing and heat exchange unit both ends and use screw rod stacked gradually fastens, and the front end-plate is equipped at intervals with four root canal roads and connects Head, four pipe joints are respectively communicated with the cold fluid runner and hot fluid runner, and the end plate closed end is board-like The through-hole of heat exchanger fin quadrangle.

Since phase-changing energy-storing of the invention uninterrupted and heat-exchange system use above-mentioned technical proposal, i.e., this system include it is several successively The phase-changing energy-storing and heat exchange unit of stacking, the unit include the first plate type heat exchange piece, the second plate type heat exchange piece, third plate-type heat-exchange Piece, two semiclosed sealing rings, totally-enclosed sealing ring and phase-change material, the spaced and parallel arrangement of three pieces of plate type heat exchange pieces and quadrangle Equipped with through-hole, the first semiclosed sealing ring, which is set between first and second plate type heat exchange piece, makes lower through-hole on side straight-through, another Lower through-hole is connected to enclosure space on side, and totally-enclosed sealing ring, which is set to, makes quadrangle through-hole straight between second and third plate type heat exchange piece Lead to and formed between plate totally-enclosed space, phase-change material is set in totally-enclosed space, and the second semiclosed sealing ring is set to third plate The other side of formula heat exchanger fin and with the first semiclosed sealing ring position on the contrary, the upper lower through-hole of three pieces of plate type heat exchange piece sides passes through Semiclosed sealing ring be connected to totally-enclosed sealing ring constitute cold fluid runner, the other side upper lower through-hole through semiclosed sealing ring and Totally-enclosed sealing ring connection constitutes hot fluid runner.This system combines heat exchange function with accumulation of energy function, and structure is simple Compact, material and infrastructure cost are cheap, increase the coefficient of heat transfer, reduce occupied area, realize and store exothermic quick response, make it possible to Measure flexible reasonable distribution over time and space.

Detailed description of the invention

The present invention will be further described in detail below with reference to the accompanying drawings and embodiments:

Fig. 1 is the uninterrupted phase-changing energy-storing of the present invention and heat-exchange system structural schematic diagram；

Fig. 2 is plate type heat exchange piece schematic diagram in this system；

Fig. 3 is semiclosed sealing ring schematic diagram in this system；

Fig. 4 is totally-enclosed sealing ring schematic diagram in this system；

Fig. 5 is the distribution schematic diagram of cold fluid in this system, phase-change material and hot fluid.

Specific embodiment

Embodiment is as shown in Figures 1 to 4, and the uninterrupted phase-changing energy-storing of the present invention and heat-exchange system include several stack gradually Phase-changing energy-storing and heat exchange unit, the phase-changing energy-storing and heat exchange unit include the first plate type heat exchange piece 11, the second plate type heat exchange piece 12, third plate type heat exchange piece 13, the first semiclosed sealing ring 14, the second semiclosed sealing ring 17, totally-enclosed sealing ring 15 and phase Become material 16, first plate type heat exchange piece 11, the second plate type heat exchange piece 12 and third plate type heat exchange piece 13 are successively spaced respectively It is arranged in parallel and quadrangle is respectively equipped with through-hole 21, the first semiclosed sealing ring 14 is set to first plate type heat exchange piece 11 Between the second plate type heat exchange piece 12 and make the upper lower through-hole of 12 side of the first plate type heat exchange piece 11 and the second plate type heat exchange piece Straight-through, the other side the upper lower through-hole is connected to the enclosure space 22 being made of semiclosed sealing ring, and the totally-enclosed sealing ring 15 is set Between second plate type heat exchange piece 12 and third plate type heat exchange piece 14 and keep the second plate type heat exchange piece 12 and third board-like The through-hole that 13 4 jiaos of heat exchanger fin is straight-through, and the totally-enclosed sealing ring 15 is in second plate type heat exchange piece 12 and third plate-type heat-exchange Totally-enclosed space 23 is formed between piece 13, the phase-change material 16 is set in the totally-enclosed space 23, and described second is semiclosed Sealing ring 17 is set to the other side of the third plate type heat exchange piece 13 and the position phase with the described first semiclosed sealing ring 14 Instead, the upper lower through-hole of 13 side of first plate type heat exchange piece 11, the second plate type heat exchange piece 12 and third plate type heat exchange piece is through institute It states semiclosed sealing ring 14 and is connected to composition cold fluid runner, first plate type heat exchange piece 11, second with totally-enclosed sealing ring 15 The upper lower through-hole of 13 other side of plate type heat exchange piece 12 and third plate type heat exchange piece is through the semiclosed sealing ring 14 and totally-enclosed close The connection of seal ring 15 constitutes hot fluid runner.The first semiclosed sealing ring and the second semiclosed seal ring structure are identical in this system, But position when being arranged on the contrary, so that hot fluid and cold fluid be alternately full of it is semiclosed by the first semiclosed sealing ring and second The enclosure space that sealing ring is constituted.

Preferably, several phase-changing energy-storings stacked gradually and heat exchange unit by plate type heat exchange piece, semiclosed sealing ring, Plate type heat exchange piece, totally-enclosed sealing ring sequence are laminated.

Preferably, first plate type heat exchange piece 11, the second plate type heat exchange piece 12 and 13 surface of third plate type heat exchange piece point She You not be embedded in the groove 24 of the semiclosed sealing ring 14 or totally-enclosed sealing ring 15, and by semiclosed sealing ring 14 or The closing plate face that totally-enclosed sealing ring 15 surrounds is equipped with deflector line 25 and herringbone ripple 26, and the deflector line 25 is located at described The both ends of plate face, the herringbone are closed in first plate type heat exchange piece 11, the second plate type heat exchange piece 12 and third plate type heat exchange piece 13 Ripple 26 is between the deflector line 25.

Preferably, the deflector line 25 and herringbone ripple 26 are obtained and are integrally formed using punching press.

Preferably, the semiclosed sealing ring 14 and totally-enclosed sealing ring 15 are EPT rubber packing rings.

Preferably, this system further includes front end-plate 41 and end plate 42, and the front end-plate 41 and end plate 42 are respectively arranged on It several phase-changing energy-storings stacked gradually and heat exchange unit both ends and is fastened using screw rod, the front end-plate 41 is equipped at intervals with Four pipe joints 43, four pipe joints 43 are respectively communicated with the cold fluid runner and hot fluid runner, the rear end The through-hole of 42 closed end plate type heat exchange piece quadrangle of plate.

This system is separately connected cold fluid and hot fluid by four pipe joints of front end-plate, and cold fluid is through cold fluid flow Road circulation, hot fluid circulate through hot fluid runner, during which, are set to adjacent two boards formula by the way that semiclosed sealing ring is alternately inverted Between heat exchanger fin, so that enclosure space of the cold fluid flow through being surrounded when the first semiclosed sealing ring full of the semiclosed sealing ring, The enclosure space surrounded when hot fluid flows through the second semiclosed sealing ring full of the semiclosed sealing ring is changed carrying out cold fluid and hot fluid While hot, so that phase in totally-enclosed sealing ring between previous semiclosed sealing ring and the semiclosed sealing ring of the latter Become the abundant accumulation of energy of material, achievees the purpose that accumulation of energy.

As shown in figure 5, totally-enclosed sealing ring seals phase-change material between adjacent panel heat exchanger fin up for safekeeping, two side runners difference The cold fluid 5 that circulates and hot fluid 6, cold fluid 5, hot fluid 6 are between cold fluid and hot fluid temperature by plate type heat exchange piece and temperature Phase-change material 16 carry out heat exchange so that energy is stored in phase-change material 16.Multiple uninterrupted phase-changing energy-storings and heat exchange are single Member stacking, so that multipass is in board-like the changing of 16 two sides of phase-change material respectively in flow process for cold fluid 5, hot fluid 6 Backing exchanges heat with phase-change material.

Thickness by changing totally-enclosed sealing ring can change the accumulation of energy amount of phase-change material, by totally-enclosed sealing ring and phase The phase-change material that adjacent plate type heat exchange piece is sealed up for safekeeping must not be full of, to avoid the damage expanded with heat and contract with cold to whole system.

This system can effectively solve existing accumulator (accumulation of heat or cold-storage) and energize the not rapid, energy over time and space Flexibly reasonable distribution utilization, the problem that the coefficient of heat transfer is small, structural volume is big, this system phase transformation material cannot be utilized in heat transfer process Material can absorb the thermal energy of storage hot fluid when hot fluid temperature is excessively high, provide when needing heat with hot fluid heat release simultaneously Thermal energy similarly absorbs the cold energy of storage cold fluid when cooling fluid temperature is too low, lets cool simultaneously when needing cooling capacity with cold fluid Cold energy is provided, peak load shifting is realized, promotes the flexible reasonable distribution of energy over time and space；Furthermore heat exchange system is significantly increased Number reduces occupied area, compact-sized, accelerates energy supply response, shortens the heat exchange response time, realizes and store exothermic quick response, And keep heat exchange steady.This system combines heat exchange function with accumulation of energy function, and simple and compact for structure, material and infrastructure cost are low It is honest and clean, there are very strong practicability and extensive social benefit, there is the Practical significance of obviously energy-saving and emission-reduction.

Claims (6)

1. a kind of uninterrupted phase-changing energy-storing and heat-exchange system, it is characterised in that: this system includes that several phase transformations stacked gradually store Energy and heat exchange unit, the phase-changing energy-storing and heat exchange unit are board-like including the first plate type heat exchange piece, the second plate type heat exchange piece, third Heat exchanger fin, the first semiclosed sealing ring, the second semiclosed sealing ring, totally-enclosed sealing ring and phase-change material, described first is board-like Heat exchanger fin, the second plate type heat exchange piece and third plate type heat exchange piece respectively successively it is spaced and parallel arrangement and quadrangle be respectively equipped with it is logical Hole, the first semiclosed sealing ring are set between first plate type heat exchange piece and the second plate type heat exchange piece and make the first plate Formula heat exchanger fin and the upper lower through-hole of the second plate type heat exchange piece side are led directly to, the upper lower through-hole of the other side is connected to by semiclosed sealing ring The enclosure space of composition, the totally-enclosed sealing ring be set between second plate type heat exchange piece and third plate type heat exchange piece and Keep the through-hole of the second plate type heat exchange piece and third plate type heat exchange piece quadrangle straight-through, the totally-enclosed sealing ring is board-like described second Totally-enclosed space is formed between heat exchanger fin and third plate type heat exchange piece, the phase-change material is set in the totally-enclosed space, institute State the second semiclosed sealing ring set on the third plate type heat exchange piece the other side and with the described first semiclosed sealing ring Position on the contrary, the upper lower through-hole of first plate type heat exchange piece, the second plate type heat exchange piece and third plate type heat exchange piece side through institute It states semiclosed sealing ring and is connected to totally-enclosed sealing ring and constitute cold fluid runner, first plate type heat exchange piece, second board-like are changed Backing is connected to composition with totally-enclosed sealing ring through the semiclosed sealing ring with the upper lower through-hole of the third plate type heat exchange piece other side Hot fluid runner.

2. uninterrupted phase-changing energy-storing according to claim 1 and heat-exchange system, it is characterised in that: described several to stack gradually Phase-changing energy-storing and heat exchange unit press plate type heat exchange piece, semiclosed sealing ring, plate type heat exchange piece, totally-enclosed sealing ring sequential layer It is folded.

3. uninterrupted phase-changing energy-storing according to claim 1 or 2 and heat-exchange system, it is characterised in that: described first is board-like Heat exchanger fin, the second plate type heat exchange piece and third plate type heat exchange piece surface are respectively equipped with the insertion semiclosed sealing ring or totally-enclosed The groove of sealing ring, and deflector line and people are equipped in the closing plate face surrounded by semiclosed sealing ring or totally-enclosed sealing ring Word ripple, the deflector line are located at first plate type heat exchange piece, the second plate type heat exchange piece and the closing of third plate type heat exchange piece The both ends of plate face, the herringbone ripple is between the deflector line.

4. uninterrupted phase-changing energy-storing according to claim 3 and heat-exchange system, it is characterised in that: the deflector line and people Word ripple is obtained and is integrally formed using punching press.

5. uninterrupted phase-changing energy-storing according to claim 4 and heat-exchange system, it is characterised in that: the semiclosed sealing ring It is EPT rubber packing ring with totally-enclosed sealing ring.

6. uninterrupted phase-changing energy-storing according to claim 5 and heat-exchange system, it is characterised in that: this system further includes front end Plate and end plate, the front end-plate and end plate are respectively arranged on several phase-changing energy-storings stacked gradually and heat exchange unit both ends And it is fastened using screw rod, the front end-plate is equipped at intervals with four pipe joints, and four pipe joints are respectively communicated with described Cold fluid runner and hot fluid runner, the through-hole of the end plate closed end plate type heat exchange piece quadrangle.