CN106705728A - Energy storage type plate heat exchanger - Google Patents

Abstract

The invention provides an energy storage type plate heat exchanger. The energy storage type plate heat exchanger comprises a first energy storage plate, a second energy storage plate and a third energy storage plate which are sequentially clamped between clamping plates, and the heat exchange process is achieved by arranging fins and through holes on the first energy storage plate, the second energy storage plate and the third energy storage plate. According to the energy storage type plate heat exchanger, the heat exchange efficiency can be effectively improved.

Description

A kind of accumulating type plate type heat exchanger

Technical field

The present invention relates to energy storage equipment, more particularly, to a kind of accumulating type plate type heat exchanger.

Background technology

Energy problem is one of major issue that the world today faces, and while economic development, also to take into account state's people's livelihood The lifting of quality living.For the present situation of the non-renewable resources increasingly depleted such as coal, oil, novel renewable energy is developed As development trend from now on.Adjustment using energy source structure, rational deployment planning energy source use form be current designer Eyespot.

Phase-change material is strong by adding expanded graphite, Nanometer Copper etc. as a kind of energy-accumulation material for possessing thermal storage density high Change heat-transfer matcrial, its thermal conductivity factor can be effectively improved, and the phase transition temperature of pure material can be maintained.

Heat exchanger is the equipment that the partial heat of hot fluid is passed to cold fluid, is by two kinds of different temperatures or two kinds More than fluid between realize the energy-saving equipment of heat transfer between material, it is possible to increase energy utilization rate.

Plate type heat exchanger is stored in phase-change material by the heat for providing hot water, and cold water reversely flows through heat exchanger by heat Amount is taken away, and realizes the transfer of energy.But Conventional plate-type heat exchanger has that heat exchange efficiency is low, and unnecessary energy can not Utilize in time, the situation of the wasting of resources occur.

The content of the invention

The present invention provide it is a kind of overcome above mentioned problem or solve the above problems at least in part can effectively improve heat The accumulating type plate type heat exchanger of exchange efficiency.

According to an aspect of the present invention, there is provided a kind of accumulating type plate type heat exchanger, it includes：Clamping plate is clamped in successively Interior and interconnected, to be packaged with composite phase-change material the first energy storage board, the second energy storage board and the 3rd energy storage board；Described second Fin is provided with the plate face of energy storage board, the fin includes the fin for being protruded along the second energy storage board plate face surrounding and being closed Edge, set in the fin edge has a fin of V-type first in gap with fin edge, the lower section of first fin with What first fin be arranged in parallel is connected and middle the second fin with gap with the fin edge, in the plate face On first fin and the second fin is arranged alternately to be covered with the plate face, first fin and the second fin and fin side Edge has identical highly, and two plate faces of second energy storage board are provided with the fin.

By the reasonable design to rib structure, the efficiency of heat exchange is effectively raised.

A kind of accumulating type plate type heat exchanger that the application is proposed, its advantage is mainly as follows：

(1) first fin and fin edge Jian You spaces, the specific gap in centre of the second fin, with such structure the One fin is arranged alternately with the second fin, and be effectively increased fluid flows through path, increases fluid effective with energy storage board Time of contact, improve heat exchanger effectiveness；

(2) height to fin, thickness, spacing and angle are reasonably adjusted, to strengthen connecing for fluid and energy storage board Touch, further improve heat exchanger effectiveness；

(3) first energy storage boards, the second energy storage board and the 3rd energy storage board are correspondingly arranged through hole, are easy to the flowing of fluid；

(4) the outside cladding insulation shell of energy storage board, reaches the effect of insulation and secondary fixation.

Brief description of the drawings

Fig. 1 is a kind of structural representation of the accumulating type plate type heat exchanger according to the embodiment of the present invention；

Fig. 2 is a kind of structural representation of the second energy storage board of the accumulating type plate type heat exchanger according to the embodiment of the present invention；

Fig. 3 is a kind of structural representation of the second energy storage board of the accumulating type plate type heat exchanger according to the embodiment of the present invention.

Specific embodiment

With reference to the accompanying drawings and examples, specific embodiment of the invention is described in further detail.Hereinafter implement Example is not limited to the scope of the present invention for illustrating the present invention.

Shown in Figure 1, being clamped successively in a kind of accumulating type plate type heat exchanger, including clamping plate 1 and clamping plate 1 the One energy storage board 4, the second energy storage board 5 and the 3rd energy storage board 6, and the first energy storage board 4, the second energy storage board 5 and the phase of the 3rd energy storage board 6 It is intercommunicated, in order to the flowing of fluid.Compound phase is packaged with first energy storage board 4, the second energy storage board 5 and the 3rd energy storage board 6 Become material, to accumulate heat.

Referring to shown in 2, fin 50 is provided with the plate face of the second energy storage board 5.Fin 50 includes fin edge 501, first The fin 503 of fin 502 and second.Fin edge 501 is protruded along the surrounding of the plate face of the second energy storage board 5, and forms the ring of closure Shape.Fin edge 501 makes the plate face of the second energy storage board 5 have prominent cyclic structure, is easy to the second energy storage board 5 to have with other The energy storage board of identical board face structure combines to form closed space.

Shown in Figure 3, the first fin 502 is arranged in the plate face of the second energy storage board 5, in fin edge 501.The One fin 502 is V-shaped, and the scope of its angle is 150 °~170 °.First fin 502 has gap with fin edge 501.First Fin 502 is not attached to fin edge 501, is easy to fluid to pass through.

The lower section of the first fin 502 is provided with the second fin 503.The shape phase of the second fin 503 and the first fin 502 Together, and with the first fin 502 it be arranged in parallel.But, the two ends of the second fin 503 are connected with fin edge 501, the second fin 503 constitute for middle two sections of fins with gap, are easy to fluid to pass through from the intermediate space of the second fin 503.

Fluid passes through from the gap between the first fin 502 and fin edge 501, is flowed on the second fin 503, and by The intermediate space of the second fin 503 passes through, and flows downward.

The first fin 502 and the second fin 503 are arranged alternately in the plate face of the second energy storage board 5, to be covered with the second accumulation of energy The plate face of plate 5.It is covered with the first fin 502 and the second fin 503 being arranged alternately in the plate face of the second energy storage board 5, makes fluid Can uniformly, pass through slowly the whole plate face of the second energy storage board 5, be fully contacted with the second energy storage board 5, with to the second energy storage board 5 releases/absorb heat, improve the efficiency that the second energy storage board 5 discharges/absorb heat.

First fin 502, the second fin 503 have identical highly with fin edge 501.Due to the first fin 502, Two fins 503 have identical highly with fin edge 501, are easy to fin 50 to have the energy storage board of identical board face structure with other When forming closed space, flowed in the runner that fluid is only formed between the first fin 502, the second fin 503 and fin edge 501 It is dynamic, the height without crossing the first fin 502, the second fin 503 and fin edge 501, in the first fin 502, the second rib Scope flowing outside piece 503 and fin edge 501, to ensure being fully contacted for fluid and the second energy storage board 5.

Fin 50 is symmetrically arranged with two symmetrical plate faces of second energy storage board 5.In two plate faces of the second energy storage board 5 Fin 50 is respectively provided with, the composite phase-change material of encapsulation in the second energy storage board 5 is fully contacted with the fluid for flowing through fin 50, be easy to Heat exchange between energy storage board and fluid, improves heat exchange coefficient.

The height of the first fin 502, the second fin 503 and fin edge 501 is 5mm~8mm.The height model of fin 50 Enclose and be arranged on 5mm~8mm, be conducive to the heat exchange between the second energy storage board 5 and fluid.

When the runner formed between the excessive height of fin 50, the first fin 502, the second fin 503 and fin edge 501 Flow section sectional area is larger, the flows faster of fluid, is unfavorable for being fully contacted for the second energy storage board 5 and fluid, reduces heat Amount exchange efficiency.

When highly too low, the runner formed between the first fin 502, the second fin 503 and fin edge 501 of fin 50 Flow section sectional area is too small, makes flowing of the fluid in runner excessively slow, and fluid resistance is larger, influences heat exchange efficiency, Can similarly cause heat exchange coefficient too low.

The thickness of the first fin 502, the second fin 503 and fin edge 501 is 3mm~5mm.The thickness range of fin 50 Be arranged on 3mm~5mm, it is to avoid fin 50 it is too thick or too thin and produce harmful effect.

When fin 50 is too thick, the space increase that fin 50 takes, the time of contact reduction of fluid and the second energy storage board 5, from And cause the reduction of heat exchange coefficient.When fin 50 is too thin, produced when making fin 50 pairs that there is the fluid of certain flow rate to pass through Impulsive force tolerance reduction, influence its use time.

Spacing range between first fin 502 and the second fin 503 is 2cm~3cm.First fin 502 and the second rib Spacing between piece 503 is too small, not only reduces the effective contact area between fluid and the second energy storage board 5, can also increase stream The resistance of body flowing, reduces the flowing velocity of fluid, reduces treatment effeciency.When between the first fin 502 and the second fin 503 Spacing is too big, and the runner flow section sectional area formed between the first fin 502 and the second fin 503 is too big, the flowing of fluid Speed is too fast, reduces the time of contact between fluid and the second energy storage board 5, causes the waste of resource, influence heat exchange effect Rate.

At least one piece of the second energy storage board 5 for setting.The factors such as size, the treatment scale of the heat according to required treatment, Consider the quantity that the second energy storage board 5 is set.First energy storage board 4 and the 3rd energy storage board 6 are respectively one piece, the accumulation of energy of polylith second Plate 5 is clamped between the first energy storage board 4 and the 3rd energy storage board 6.

Shown in Figure 1, the first energy storage board 4 and the 3rd energy storage board 6 have a plate face to be provided with and the second energy storage board 5 The mutually isostructural fin of fin 50, also, the first energy storage board 4 and the 3rd energy storage board 6 have the one side of rib structure towards second Energy storage board 5.

Because the first energy storage board 4, the second energy storage board 5 and the 3rd energy storage board 6 are clamped in clamping plate 1 successively, the first accumulation of energy The one side that plate 4 has fin is mutually clamped with the fin 50 of the second energy storage board 5, makes the fin of the first energy storage board 4 and the second energy storage board 5 It is just relative, the runner of flow of fluid is formed between fin；The energy storage board 6 of fin 50 and the 3rd of the second energy storage board 5 has fin knot The one side of structure is mutually clamped, and makes the second energy storage board 5 just relative with the fin of the 3rd energy storage board 6, and flow of fluid is formed between fin Runner.

The upper end of the second energy storage board 5 is provided with upper through-hole 5a, and lower end is provided with lower through-hole 5b.Upper through-hole 5a and bottom are logical Hole 5b has the relative plate face of rib structure through the second energy storage board 5.

The upper end of the first energy storage board 4 is provided with first through hole 4a, first through hole 4a is relative with the position of upper through-hole 5a Should.When the first energy storage board 4 is mutually clamped with the second energy storage board 5, first through hole 4a and upper through-hole 5a forms path.

The lower end of the 3rd energy storage board 6 is provided with the second through hole 6a, and the second through hole 6a is corresponding with the position of lower through-hole 5b. When the second energy storage board 5 is mutually clamped with the 3rd energy storage board 6, lower through-hole 5b and the second through hole 6a forms path.

When fluid flows into the runner that the fin between the first energy storage board 4 and the second energy storage board 5 is formed by first through hole 4a Meanwhile, the runner or second that the fin between the second energy storage board 5 and the second energy storage board 5 is formed can be also flowed into by upper through-hole 5a The runner that fin between the energy storage board 6 of energy storage board 5 and the 3rd is formed, flows through fin between the first energy storage board 4 and the second energy storage board 5 Fluid in the runner of formation, is continued to be flowed to follow-up energy storage board from the lower through-hole 5b of the lower end of the second energy storage board 5, and it is final by The second through hole 6a outflows of the lower end of the 3rd energy storage board 6, complete heat exchange process.

For clamping the first energy storage board 4, the clamping plate 1 of the second energy storage board 5 and the 3rd energy storage board 6 include first clamping plate 1a and Second clamping plate 1b.First clamping plate 1a is located at the first side of the energy storage board 4 without rib structure, and second clamping plate 1b is located at the 3rd accumulation of energy Side of the plate 6 without rib structure.Position corresponding with first through hole 4a is provided with fluid intake 2, second on first clamping plate 1a Position corresponding with the second through hole 6a is provided with fluid issuing 3 on clamping plate 1b.

The fluid for carrying out heat exchange enters first through hole 4a through fluid intake 2, and then carries out heat friendship into energy storage board Change；Carry out the fluid after heat exchange and fluid issuing 3 is entered by the second through hole 6a, be then out, complete whole heat exchange mistake Journey.

Multiple screws 7 are correspondingly arranged on first clamping plate 1a and second clamping plate 1b, first clamping plate 1a is passed through using clamping bar 8 Screw 7 corresponding with second clamping plate 1b, to fix first clamping plate 1a and second clamping plate 1b.

Insulation shell 9 is also wrapped in the outside of the first energy storage board 4, the second energy storage board 5 and the 3rd energy storage board 6.Insulation cladding The cladding face of body 9 is vertical with the plate face of the first energy storage board 4, the second energy storage board 5 and the 3rd energy storage board 6, is incited somebody to action with together with clamping plate 1 First energy storage board 4, the second energy storage board 5 and the 3rd energy storage board 6 are coated completely, further to strengthen the first energy storage board 4, the second accumulation of energy The heat insulating effect of the energy storage board 6 of plate 5 and the 3rd, meanwhile, also function to the effect of secondary fixation.

A kind of accumulating type plate type heat exchanger of the invention, including the first energy storage board 4, in clamping plate 1 are clamped in successively Two energy storage boards 5 and the 3rd energy storage board 6, fin is correspondingly arranged on the first energy storage board 4, the second energy storage board 5 and the 3rd energy storage board 6 50, and the through hole being connected, enable the fluid for being exchanged heat in the first energy storage board 4, the second energy storage board 5 and the 3rd energy storage board Flowed in the runner that 6 fin is formed, be fully contacted with the first energy storage board 4, the second energy storage board 5 and the 3rd energy storage board 6, realized The exchange of heat.

By the reasonable design of the structure to fin 50, the efficiency of heat exchange is effectively raised.

Finally, the present processes are only preferably embodiment, are not intended to limit the scope of the present invention.It is all Within the spirit and principles in the present invention, any modification, equivalent substitution and improvements made etc. should be included in protection of the invention Within the scope of.

Claims (10)

1. a kind of accumulating type plate type heat exchanger, it is characterised in that it includes：It is clamped in successively in clamping plate (1) and is interconnected , the first energy storage board (4) for being packaged with composite phase-change material, the second energy storage board (5) and the 3rd energy storage board (6)；

Fin (50) is provided with the plate face of second energy storage board (5), the fin (50) is including along second energy storage board (5) the fin edge (501) that plate face surrounding is protruded and closed, is set and fin edge (501) tool in the fin edge (501) The lower section for having the fin of the V-type first (502) in gap, first fin (502) be arranged in parallel with first fin (502) Be connected with the fin edge (501) and middle the second fin (503) with gap, be arranged alternately in the plate face First fin (502) and the second fin (503) are being covered with the plate face, first fin (502) and the second fin (503) with fin edge (501) with identical highly, and second energy storage board (5) two plate faces be provided with it is described Fin (50).

2. a kind of accumulating type plate type heat exchanger as claimed in claim 1, it is characterised in that：First fin in del (502) angle is 150 °~170 °.

3. a kind of accumulating type plate type heat exchanger as claimed in claim 1, it is characterised in that：The thickness of the fin (50) be 3mm~ 5mm, is highly 5mm~8mm.

4. a kind of accumulating type plate type heat exchanger as claimed in claim 1, it is characterised in that：First fin (502) and the second rib Spacing between piece (503) is 2cm~3cm.

5. a kind of accumulating type plate type heat exchanger as claimed in claim 1, it is characterised in that：At least provided with one piece of second accumulation of energy Plate (5).

6. a kind of accumulating type plate type heat exchanger as claimed in claim 1, it is characterised in that：First energy storage board (4) and the 3rd stores Energy plate (6) only one of which plate face is provided with the fin (50), and first energy storage board (4) and the 3rd energy storage board (6) tool There is the plate face of fin (50) towards second energy storage board (5).

7. a kind of accumulating type plate type heat exchanger as claimed in claim 1, it is characterised in that：The top of second energy storage board (5) sets The upper through-hole (5a) with respect to plate face through the top of second energy storage board (5) is put, the bottom of second energy storage board (5) sets Put the lower through-hole (5b) with respect to plate face through the bottom of second energy storage board (5).

8. a kind of accumulating type plate type heat exchanger as claimed in claim 7, it is characterised in that：The upper end of first energy storage board (4) with The corresponding position of the upper through-hole (5a) is provided with the first through hole (4a) that path is formed with the upper through-hole (5a)；It is described The lower end position corresponding with the lower through-hole (5b) of the 3rd energy storage board (6) is provided with and forms logical with the lower through-hole (5b) Second through hole (6a) on road.

9. a kind of accumulating type plate type heat exchanger as claimed in claim 8, it is characterised in that：The clamping plate (1) is including first clamping plate (1a) and second clamping plate (1b), position corresponding with the first through hole (4a) sets fluid intake on the first clamping plate (1a) (2)；Position corresponding with second through hole (6a) sets fluid issuing (3) on the second clamping plate (1b).

10. a kind of accumulating type plate type heat exchanger as claimed in claim 1, it is characterised in that：First energy storage board (4), second store Energy plate (5) and the 3rd energy storage board (6) outside are also wrapped on the insulation shell (9) of tool insulation efficiency.