CN207570152U - Magnetic working medium component, working medium bed of magnetic and magnetic refrigerator - Google Patents

Abstract

The utility model provides a kind of magnetic working medium component, working medium bed of magnetic and magnetic refrigerator, wherein, the magnetic working medium component of magnetic refrigerator includes：Base core；Magnetic working medium layer is coated on the outer circumferential of base core, wherein, magnetic working medium layer can change with the magnitude of field intensity of local environment absorbs or discharges heat, and the intensity of base core is more than the intensity of magnetic working medium layer.The technical solution of the utility model efficiently solves that magnetic working medium is frangible in the prior art causes fluid channel to block, and then the problem of influence heat exchange efficiency.

Description

Magnetic working medium component, working medium bed of magnetic and magnetic refrigerator

Technical field

The utility model is related to refrigerating fields, freeze in particular to a kind of magnetic working medium component, working medium bed of magnetic and magnetic Machine.

Background technology

Active magnetic backheat technology or referred to as AMR (active magnetic regenerator) technology, is by Seyter It proposes, and is introduced in the patent (US4332135 (A)) of nineteen eighty-two application first.The major advantage of AMR cycles is system The temperature change that cold temperature can be in application magnetic field much larger than magneto-caloric material across (temperature difference when temperature is with absorbing heat when discharging hot) Absolute value (adiabatic temperature becomes Δ Tad).For example, it is only 4K that the thermal insulation temperature that gadolinium generates under 1.5T magnetic fields, which becomes,.Using active backheat Device magnetic cycle (AMR Cycle) can not only overcome this limitation, and the temperature for being higher by Δ Tad several times is generated at the both ends of magnetic material Across, while also so that heat exchange is more efficient, the structure of magnetic refrigerator is compacter.

Magnetic material in active magnetic backheat AMR cycles is both Magnetic material and regenerative material, heat exchanging fluid are both The refrigerating medium of thermodynamic cycle is regenerator cold-storage liquid again.Heat transfer be happened in the forms solid magneto-caloric material such as porous or gap with Between the heat-transfer fluid flowed through.In order to effectively conduct heat, magneto-caloric material should have big be used for and heat transfer fluid contacts Surface area, while gap form fluid channel must have low fluid flow obstruction.That is working medium pattern, geometry structure Type influences heat exchange efficiency and pressure drop.

Magnetic working material property is generally more crisp, intensity is small (such as gadolinium Gd), by magnetic field force up to 8 in 1.5T high-intensity magnetic fields A atm higher, easily mutually being squeezed by the effect of the power causes magnetic working medium to crush.

At present, the working medium bed of magnetic of AMR is usually the forms such as spherical particle or sheet lamination composition.These structure types, Consider for following several respects, be limited by material property and configuration characteristic, performance can not be further improved.On the one hand it improves The considerations of heat exchange efficiency, increases the surface area for heat transfer fluid contacts, needs to reduce geometrical characteristic (thickness, diameter etc.), Increase magnetic working medium amount (reducing porosity)；On the one hand in order to avoid working medium crushes, fragment is caused to clog sky between original magnetic working medium Gap causes refrigeration bed porosity to decline, and fluid channel blocks, and needs to increase geometrical characteristic；Another further aspect increases heat exchange flow Refrigeration outputs are improved, needs to reduce flow resistance, increases porosity.

Utility model content

The utility model is intended to provide a kind of magnetic working medium component, working medium bed of magnetic and magnetic refrigerator, to solve in the prior art Magnetic working medium is frangible to cause fluid channel to block, and then the problem of influence heat exchange efficiency.

To achieve these goals, one side according to the present utility model provides a kind of magnetic working medium of magnetic refrigerator Component, including：Base core；Magnetic working medium layer is coated on the outer circumferential of base core, wherein, magnetic working medium layer can be with the magnetic of local environment Field intensity size variation absorbs or release heat, the intensity of base core are more than the intensity of magnetic working medium layer.

Further, the ratio of the diameter of the diameter of base core and magnetic working medium component is between 0.1 to 0.5.

Further, the diameter of magnetic working medium component is less than or equal to 3.5mm.

Further, base core is in Filamentous or sheet.

Further, magnetic working medium layer is coated on by hot dipping method, cladding process, galvanoplastic, horizontal casting method or Hot rolling The outer circumferential of base core.

Further, the material of magnetic working medium layer is Gd, La (Fe, Si)₁₃Hy or La ((Fe, Co), Si)₁₃。

Further, the cross section of base core is round, ellipse, rectangle or diamond shape.

Further, the fin outwardly protruded is additionally provided on the outer surface of base core, magnetic working medium layer is coated on base core and rib On piece.

Further, fin is one or more of needle rib, straight rib or ring rib.

Another aspect according to the present utility model provides a kind of working medium bed of magnetic, including magnetic working medium component, magnetic working medium component For above-mentioned magnetic working medium component.

Further, working medium bed of magnetic has two bottom plates being oppositely arranged, and through-hole, magnetic working medium group are provided on two bottom plates Part is worn in through-holes.

Further, through-hole is multiple, and multiple through-holes are arranged in the form of in-line arrangement, fork row or radial arrangement.

Further, working medium bed of magnetic further includes the baffle plate being arranged between two bottom plates, and multiple through-holes are relative to baffling Plate is symmetrical arranged.

Another aspect according to the present utility model provides a kind of magnetic refrigerator, and including working medium bed of magnetic, working medium bed of magnetic is upper The working medium bed of magnetic stated.

Using the technical solution of the utility model, magnetic working medium layer is attached to the outer circumferential of base core, magnetic working medium layer can It is absorbed with the size variation of residing magnetic field intensity or discharges heat, to reduce or increase the heat exchanging fluid near magnetic working medium component Temperature.The intensity of base core is more than the intensity of magnetic working medium layer, to play a supporting role to magnetic working medium layer.When magnetic working medium component stress When, suffered power is mainly born by base core, to mitigate the stress of magnetic working medium layer, is reduced magnetic working medium layer and is damaged in use Possibility, and then reduce clast enter in magnetic working medium block magnetic working medium between gap, cause runner block influence magnetic refrigerator change The problem of thermal efficiency.

Description of the drawings

The accompanying drawings which form a part of this application are used to provide a further understanding of the present invention, this practicality Novel illustrative embodiments and their description do not form the improper restriction to the utility model for explaining the utility model. In the accompanying drawings：

Fig. 1 shows the structure diagram of the embodiment of magnetic working medium component according to the present utility model；

Fig. 2 shows the schematic cross-sectional views of the magnetic working medium component of Fig. 1；

Fig. 3 a to Fig. 3 d show the cross-sectional view of the magnetic working medium component of other forms；

Fig. 4 shows the schematic cross-sectional view of the magnetic working medium component of another structure；

Fig. 5 shows the structure diagram of the embodiment of working medium bed of magnetic according to the present utility model；

Fig. 6 shows the left view structural representation of the working medium bed of magnetic of Fig. 5；And

Fig. 7 shows the positive structure diagram of the working medium bed of magnetic of Fig. 5.

Wherein, above-mentioned attached drawing is marked including the following drawings：

10th, base core；20th, magnetic working medium layer；30th, bottom plate；50th, baffle plate.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present application, the technical solution in the embodiment of the present application is carried out clear, complete Site preparation describes, it is clear that described embodiments are only a part of embodiments of the present application, instead of all the embodiments.Below Description only actually at least one exemplary embodiment is illustrative, is never used as to the application and its application or makes Any restrictions.Based on the embodiment in the application, those of ordinary skill in the art are not making creative work premise Lower all other embodiments obtained, shall fall in the protection scope of this application.

It should be noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singulative It is also intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet Include " when, indicate existing characteristics, step, operation, device, component and/or combination thereof.

Unless specifically stated otherwise, the component and positioned opposite, the digital table of step otherwise illustrated in these embodiments Up to the unlimited scope of the present application processed of formula and numerical value.Simultaneously, it should be appreciated that for ease of description, each portion shown in attached drawing The size divided not is to be drawn according to practical proportionate relationship.For technology, side known to person of ordinary skill in the relevant Method and equipment may be not discussed in detail, but in the appropriate case, and the technology, method and apparatus should be considered as authorizing explanation A part for book.In shown here and discussion all examples, any occurrence should be construed as merely illustrative, and Not by way of limitation.Therefore, the other examples of exemplary embodiment can have different values.It should be noted that：Similar label Similar terms are represented in following attached drawing with letter, therefore, once it is defined in a certain Xiang Yi attached drawing, then subsequent attached It does not need to that it is further discussed in figure.

As depicted in figs. 1 and 2, the magnetic working medium component of the present embodiment can be applicable in magnetic refrigerator, specifically, magnetic working medium group Part includes base core 10 and magnetic working medium layer 20, wherein, magnetic working medium layer 20 is coated on the outer circumferential of base core 10, and can be with residing ring The magnitude of field intensity variation in border absorbs or release heat, the intensity of base core 10 are more than the intensity of magnetic working medium layer 20.

Using the technical solution of the present embodiment, magnetic working medium layer 20 is attached to the outer circumferential of base core 10, magnetic working medium layer 20 It can be absorbed with the size variation of residing magnetic field intensity or discharge heat, to reduce or increase the heat exchange near magnetic working medium component The temperature of fluid.The intensity of base core 10 is more than the intensity of magnetic working medium layer 20, to play a supporting role to magnetic working medium layer 20.When magnetic work During matter component stress, suffered power is mainly born by base core 10, to mitigate the stress of magnetic working medium layer 20, reduces magnetic working medium layer 20 The possibility damaged in use, so reduce clast enter in magnetic working medium block magnetic working medium between gap, runner is caused to block up Plug influences the problem of magnetic refrigerator heat exchange efficiency.

Intensity is primarily referred to as the ability that material resists destruction under external force herein, and the intensity of base core 10 is more than magnetic working medium The intensity of layer 20, and when being preferably provided at magnetic working medium component stress stress concentration position, further to reduce magnetic working medium layer damage Bad possibility.The probability of magnetic working medium layer damage reduces the probability that fluid channel blocks in then magnetic working medium layer and reduces, and then can subtract The thickness of small magnetic working medium layer is so that working medium bed of magnetic obtains the surface area of bigger；The probability reduction of magnetic working medium layer damage simultaneously can be protected The porosity of magnetic working medium component is demonstrate,proved, flow resistance is made to keep stablizing, is conducive to improve heat exchange flow to improve refrigeration outputs.

Preferably as basic shape, the circular in cross-section of the magnetic working medium component of the present embodiment, base core 10 is steel wire, magnetic Working medium layer 20, which is coated on outside base core, makes the cross section of magnetic working medium layer 20 annular in shape, the diameter of base core 10 and the diameter of magnetic working medium component Ratio between 0.1 to 0.5, in other words the thickness of magnetic working medium layer 20 should reach the 50% of the characteristic radius of magnetic working medium component to Between 90%, so that magnetic working medium component can be with enough intensity but also with enough surface areas.Specifically can according to return The real output demand of hot device is by Thermodynamic calculation and combines Mechanics Calculation acquisition optimal thickness.

According to the difference of diameter d, the magnetic working medium component of the present embodiment can be divided into microwires of the d less than 0.2mm, d exists The center line of 0.2mm to 0.6mm, d 0.6mm to 1.6mm big line and d more than 1.6mm thick line, according to heat transfer effect, The diameter d of magnetic working medium component is preferably smaller than or equal to 3.5mm.

Further, the material of the magnetic working medium layer 20 of the present embodiment is Gd.

In other embodiments, other high-strength materials may be used to improve or adaptively adjust load model in base core It encloses.The material of magnetic working medium layer can be replaced La (Fe, Si)₁₃Hy or La ((Fe, Co), Si)₁₃And other are with preferable magnetic thermal effect The material answered.As shown in Fig. 3 a to Fig. 3 d, the cross section of base core may be regular hexagon, triangle, ellipse, rectangle or water chestnut The other shapes such as shape, magnetic working medium layer are correspondingly coated on the outer surface of base core and the thickness of magnetic working medium layer are made to reach magnetic working medium group Between the 50% to 90% of the characteristic radius of part.Base core can also in the form of sheets, and corresponding earth magnetism working medium layer can be arranged on sheet base The both sides or outer circumferential of core.Alternatively, as shown in figure 4, base core 10 is steel disc, magnetic working medium layer 20 is arranged on sheet base core 10 Upper and lower surface on, the thickness of magnetic working medium component is in 0.2mm between 0.6mm.Further, magnetic working medium layer can pass through hot dipping Plating method, cladding process, galvanoplastic, horizontal casting method or Hot rolling are coated on the outer circumferential of base core.

Further, in the other embodiment being not shown in figure, convex is also provided on the outer surface of base core The fin gone out, and magnetic working medium layer is coated on base core and fin.On the one hand fin can further increase the table of magnetic working medium layer On the other hand area can exchange hot fluid according to factors such as shape, the extending directions of fin and play the role of guiding, increase stream The disturbance of body, further improves heat transfer effect.Specifically, fin can be one kind in needle rib, straight rib or ring rib according to shape It is or several.

The utility model additionally provides a kind of working medium bed of magnetic, as shown in figure 5, the working medium bed of magnetic of the present embodiment includes magnetic working medium Component, magnetic working medium component are above-mentioned magnetic working medium component.The working medium bed of magnetic of the present embodiment have be hardly damaged, service life is long, The advantages of heat exchange efficiency is high.

Specifically, as shown in Figure 5 and Figure 6, the working medium bed of magnetic of the present embodiment has two bottom plates 30 being oppositely arranged, two Through-hole is provided on bottom plate 30, magnetic working medium component is worn in through-holes.When there is heat exchanging fluid to pass through in working medium bed of magnetic, heat exchange stream Body flows through magnetic working medium component and exchanges heat with magnetic working medium layer.Specifically, as depicted in figs. 1 and 2, in the magnetic working medium component of the present embodiment The length of base core 10 is more than the length of magnetic working medium layer 20, the both ends of base core 10 is made to stretch out magnetic working medium layer 20, base core 10 stretches out magnetic work The part of matter layer 20 is inserted into bottom plate 30, to fix the rear fixation of the distance between magnetic working medium component, adjustment bottom plate 30, cutting Additional length magnetic working medium fuel rod, then magnetic working medium fuel rod is further allowed to be firmly combined with, seal with regenerator wall surface with adhesive. The pressure generated when magnetic working medium layer 20 being made only to be passed through by fluid reduces the risk of 20 damage of magnetic working medium layer.

Preferably, as shown in fig. 7, the through-hole of the present embodiment is multiple, multiple through-holes are arranged in the form of the row of pitching, adjacent two Row through-hole dislocation arrangement improves the heat exchange area of working medium bed of magnetic to increase the quantity of magnetic working medium component in unit area.

PorosityIt is defined as the volume V of the interstitial space of material_GapWith total volume V_AlwaysOr bulk volume is (including solid volume The ratio between and voidage)：

The porosity of the present embodimentControl is 0.2~0.5.As shown in fig. 7, in figure corresponding two magnetic working medium component it Between centre-to-centre spacing D be that hole is blunt connects parameter for control, can be calculated and obtained according to AMR backheats unit volume and fuel rod volume relationship Centre-to-centre spacing D between stick and stick：

V_{Working medium}=n π Ld²/4

V_Gap=n (D²-nπd²/4)L

Wherein, n working medium stick number, L working medium sticks length, d working medium stick diameters.Above-mentioned three formula of simultaneous can obtain centre-to-centre spacing D：

Fluid flows between magnetic working medium component in alternating contractions and the bending channel of expansion in this way, and disturbance is violent, convection current Heat transfer enhancing, improves heat transfer efficiency.

In other embodiments, multiple through-holes can also be in the form of in-line arrangement or the form of radial arrangement is to improve magnetic working medium The adaptability of assembly array and working medium bed of magnetic.

Further, as shown in fig. 7, the working medium bed of magnetic of the present embodiment further includes the baffling being arranged between two bottom plates 30 Plate 50, multiple through-holes are symmetrical arranged relative to baffle plate 50.Baffle plate 50 enable heat exchanging fluid working medium bed of magnetic homonymy into Go out, be conducive to the structure arrangement of magnetic refrigerator, multiple through-holes are symmetrical arranged relative to baffle plate 50 makes heat exchanging fluid enter and flow Flow velocity when going out working medium bed of magnetic is close.

It should be noted that in other figs. in unshowned embodiment, multiple baffle plates can be set to increase system The shell side of cryogen makes refrigerant be come into full contact with magnetic working medium component, and the through-hole for fixing magnetic working medium component can be according to baffling The position of plate adaptively adjusts.In other embodiments, it is flat to be also not limited to be arranged on opposite two pieces for magnetic working medium component Between straight bottom plate, as long as can fix magnetic working medium component makes magnetic working medium component have enough contacts area with refrigerant Structure type is in the protection domain of the application.For example, above-mentioned magnetic working medium component is threaded through on one piece of bottom plate, formed similar The structure of brush；Between above-mentioned magnetic working medium component is arranged on two tubular structures of mutually nested setting, pass through refrigerant Annular compartment between two tubular structures is realized to exchange heat with magnetic working medium component.

The utility model additionally provides a kind of magnetic refrigerator, is included according to the magnetic refrigerator (not shown) of the present embodiment Active regenerator (AMR), permanent magnet, fluid pump, cold side heat exchanger (CHEX), hot side heat exchanger (HHEX), working medium bed of magnetic are upper It states working medium bed of magnetic and is arranged in active regenerator (AMR), relatively rotate between working medium bed of magnetic and permanent magnet, fluid pump is driven Circulate heat exchanging fluid, fluid flows through working medium bed of magnetic (demagnetization), which contacts with the low temperature working medium bed of magnetic to demagnetize Shi Bianleng.The fluid to turn cold leaves working medium bed of magnetic, flows through cold side heat exchanger and absorbs heat and cool down.The heat exchanging fluid heated is again It is secondary to flow through working medium bed of magnetic (magnetization), heating when which contacts with the high temperature working medium bed of magnetic after magnetization.This high-temp magnetic work Matter bed is generated by the magnetic field magnetization fever generated by permanent magnet.Finally led to by the heat for the working medium bed of magnetic (magnetization) that fluid absorbs Hot side heat exchanger is crossed to be discharged into ambient enviroment.Then fluid returns to fluid reservoir and fluid pump, recycling.

In the embodiment, hot side and cold side can invert.The opportunity of fluid flowing and direction (heat to cold or be cooled to heat) Can mutually it coordinate with the application and removal in magnetic field.Magnetic field can be provided by permanent magnet, electromagnet or superconducting magnet.This reality Applying the magnetic refrigerator of example has the advantages that long lifespan, high cooling efficiency.

It can be seen from the above description that the above embodiments of the present invention achieve the following technical effects：

Magnetic working medium layer is attached to the outer circumferential of base core, magnetic working medium layer can be inhaled with the size variation of residing magnetic field intensity It receives or discharges heat, to reduce or increase the temperature of the heat exchanging fluid near magnetic working medium component.The intensity of base core is more than magnetic work The intensity of matter layer, to play a supporting role to magnetic working medium layer.When magnetic working medium component stress, suffered power is mainly held by base core By to mitigate the stress of magnetic working medium layer, the possibility that reduction magnetic working medium layer damages in use, and then reduction clast enters magnetic The problem of gap between blocking magnetic working medium in working medium, runner is caused, which to block, influences magnetic refrigerator heat exchange efficiency.

In the description of the present application, it is to be understood that the noun of locality such as " forward and backward, upper and lower, left and right ", " laterally, vertical, Vertically, orientation or position relationship indicated by level " and " top, bottom " etc. are normally based on orientation or position shown in the drawings and close System is for only for ease of description the application and simplifies description, and in the case where not making to illustrate on the contrary, these nouns of locality do not indicate that There must be specific orientation with the device or element for implying meaning or with specific azimuth configuration and operation, therefore cannot manage It solves as the limitation to the application protection domain；The noun of locality " inside and outside " refers to relative to inside and outside each component profile in itself.

For ease of description, spatially relative term can be used herein, as " ... on ", " ... top ", " ... upper surface ", " above " etc., for describing such as a device shown in the figure or feature and other devices or spy The spatial relation of sign.It should be understood that spatially relative term is intended to comprising the orientation in addition to device described in figure Except different direction in use or operation.For example, if the device in attached drawing is squeezed, it is described as " in other devices It will be positioned as " under other devices or construction after the device of part or construction top " or " on other devices or construction " Side " or " under other devices or construction ".Thus, exemplary term " ... top " can include " ... top " and " in ... lower section " two kinds of orientation.The device can also other different modes positioning (being rotated by 90 ° or in other orientation), and And respective explanations are made in opposite description to space used herein above.

Furthermore, it is necessary to explanation, limits parts, it is only for be convenient for using the words such as " first ", " second " Corresponding parts are distinguished, such as without Stated otherwise, above-mentioned word is there is no particular meaning, therefore it is not intended that this Apply for the limitation of protection domain.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (14)

1. a kind of magnetic working medium component of magnetic refrigerator, which is characterized in that including：

Base core (10)；

Magnetic working medium layer (20) is coated on the outer circumferential of the base core (10),

Wherein, the magnetic working medium layer (20) can change with the magnitude of field intensity of local environment absorbs or discharges heat, institute The intensity for stating base core (10) is more than the intensity of the magnetic working medium layer (20).

2. magnetic working medium component according to claim 1, which is characterized in that the diameter of the base core (10) and the magnetic working medium The ratio of the diameter of component is between 0.1 to 0.5.

3. magnetic working medium component according to claim 1 or 2, which is characterized in that the diameter of the magnetic working medium component be less than or Person is equal to 3.5mm.

4. magnetic working medium component according to claim 1, which is characterized in that the base core (10) is in Filamentous or sheet.

5. magnetic working medium component according to claim 1, which is characterized in that the magnetic working medium layer (20) by hot dipping method, Cladding process, galvanoplastic, horizontal casting method or Hot rolling are coated on the outer circumferential of the base core (10).

6. magnetic working medium component according to claim 1, which is characterized in that the material of the magnetic working medium layer (20) is Gd, La (Fe, Si)₁₃Hy or La ((Fe, Co), Si)₁₃。

7. magnetic working medium component according to claim 1, which is characterized in that the cross section of the base core (10) is round, ellipse Round, rectangle or diamond shape.

8. magnetic working medium component according to claim 1, which is characterized in that be additionally provided on the outer surface of the base core (10) The fin outwardly protruded, the magnetic working medium layer (20) are coated on the base core (10) and the fin.

9. magnetic working medium component according to claim 8, which is characterized in that the fin is in needle rib, straight rib or ring rib It is one or more of.

10. a kind of working medium bed of magnetic, including magnetic working medium component, which is characterized in that the magnetic working medium component is in claim 1 to 9 Any one of them magnetic working medium component.

11. working medium bed of magnetic according to claim 10, which is characterized in that the working medium bed of magnetic has two be oppositely arranged Bottom plate (30) is provided with through-hole on two bottom plates (30), and the magnetic working medium component is threaded through in the through-hole.

12. working medium bed of magnetic according to claim 11, which is characterized in that the through-hole is multiple, and multiple through-holes are in The form arrangement of in-line arrangement, fork row or radial arrangement.

13. working medium bed of magnetic according to claim 12, which is characterized in that the working medium bed of magnetic, which further includes, is arranged on two institutes The baffle plate (50) between bottom plate (30) is stated, multiple through-holes are symmetrical arranged relative to the baffle plate (50).

14. a kind of magnetic refrigerator, including working medium bed of magnetic, which is characterized in that the working medium bed of magnetic is to appoint in claim 10 to 13 Working medium bed of magnetic described in one.