CN201463103U - Vacuum superconducting electric heater - Google Patents
Vacuum superconducting electric heater Download PDFInfo
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- CN201463103U CN201463103U CN2009201092772U CN200920109277U CN201463103U CN 201463103 U CN201463103 U CN 201463103U CN 2009201092772 U CN2009201092772 U CN 2009201092772U CN 200920109277 U CN200920109277 U CN 200920109277U CN 201463103 U CN201463103 U CN 201463103U
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- fin
- electric heater
- superconducting electric
- vacuum superconducting
- sleeve pipe
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Abstract
The embodiment of the utility model provides a vacuum superconducting electric heater which comprises a heating rod and heat radiating sheets, wherein each heat radiating sheet is in a sheet shape and comprises two cover plates which are buckled mutually and connected in a welding way, and grooves on the two cover plates form a heat-conducting cavity after buckled. By setting the heat radiating sheets into a sheet structure, the heat radiating area of the heat radiating sheets is increased, and the heat radiating efficiency is improved.
Description
Technical field
The utility model embodiment relates to superconducting electric heating heating technology, particularly a kind of vacuum superconducting electric heater.
Background technology
The electric heater that in the past was used to heat mainly is to utilize heaters such as electrothermal tube or heating film, and Yi Shui and oil carry out heating for heat transfer carrier.Along with the development of superconducting technology, vacuum superconducting electric heater arises at the historic moment at present.
Fig. 1 is the structural representation of vacuum superconducting electric heater in the prior art.As shown in Figure 1, vacuum superconducting electric heater generally is made of fin 101 and heating rod 103.The normally castiron cylindric body of fin 101, the both sides of each fin 101 are formed with interface 102, and what the interface 102 of adjacent fin 101 adopted is that the interior welds form connects; The flange 104 that is installed on the heating rod 103 is connected with fin 101 bottom interfaces 102 in the screw thread mode, thereby heating rod 103 is installed in the cavity of fin 101.In use,, fill superconducting fluid in it, superconducting fluid is undergone phase transition, in cavity, circulate and conduct heat by heating rod 103 with the internal cavities of the vacuum superconducting electric heater state that is evacuated.
But there is certain defective in existing vacuum superconducting electric heater: the heat radiation cross section between each cylindric fin is less, so the relative area between the two adjacent fin is less, the not strong radiating effect of cold-hot air convection is bad.
The utility model content
The utility model embodiment provides a kind of vacuum superconducting electric heater, and is little to solve the vacuum superconducting electric heater area of dissipation, the problem that radiating efficiency is low.
The utility model embodiment provides a kind of vacuum superconducting electric heater, comprise heating rod and fin, wherein, described fin be shaped as sheet, each described fin comprises mutual fastening and two cover plates that are welded to connect, be formed with the multiple tracks groove respectively on two cover plates, behind fastening, form a plurality of thermal conductive cavities; The edge of two described cover plates is welded to each other, and a plurality of described thermal conductive cavity on each described fin is interconnected by the gap between two described cover plates.
By above technical scheme as can be known, a kind of vacuum superconducting electric heater that the utility model embodiment provides, shape by fin is set to sheet, increased the relative surface area between the adjacent fin, make the heating surface (area) (HS of cold air contact bigger, the heated time is longer, helps improving the thermal effect that adds to the cold air that flows through, thereby improves radiating efficiency; Thermal conductive cavity in the fin is interconnected by the gap between the cover plate, and the thermal conductive cavity of entire heat dissipation sheet is communicated with, and more helps superconducting fluid and flows in thermal conductive cavity, has improved heating properties.
Description of drawings
Fig. 1 is the structural representation of vacuum superconducting electric heater in the prior art;
The front view of the vacuum superconducting electric heater that Fig. 2 provides for the utility model embodiment one;
The structural representation of fin in the vacuum superconducting electric heater that Fig. 3 provides for the utility model embodiment one;
The vertical view of the vacuum superconducting electric heater that Fig. 4 provides for the utility model embodiment one;
Fig. 5 is that A-A among Fig. 3 is to cutaway view;
The front view of the vacuum superconducting electric heater that Fig. 6 provides for the utility model embodiment two;
The front view of the vacuum superconducting electric heater that Fig. 7 provides for the utility model embodiment three;
The front view of the vacuum superconducting electric heater that Fig. 8 provides for the utility model embodiment four;
The right view of outward appearance decoration panel in the vacuum superconducting electric heater that Fig. 9 provides for the utility model embodiment four.
The specific embodiment
Also in conjunction with the accompanying drawings the utility model is described in further detail below by specific embodiment.
Embodiment one
The front view of the vacuum superconducting electric heater that Fig. 2 provides for the utility model embodiment one, the structural representation of fin in the vacuum superconducting electric heater that Fig. 3 provides for the utility model embodiment one, the vertical view of the vacuum superconducting electric heater that Fig. 4 provides for the utility model embodiment one, Fig. 5 are that A-A among Fig. 3 is to cutaway view.Shown in Fig. 2,3,4,5, present embodiment provides a kind of vacuum superconducting electric heater, comprises heating rod 3 and fin 1, fin 1 be shaped as sheet, each fin 1 comprise mutual fastening and 4, two cover plates 4 of two cover plates of being welded to connect on groove 5 behind fastening, form thermal conductive cavity 6; Be formed with multiple tracks groove 5 on the cover plate 4 respectively, be formed with a plurality of thermal conductive cavities 6 on the fin 1 after fastening; The edge of two cover plates 4 is welded to each other, and a plurality of thermal conductive cavities 6 on each fin 1 are interconnected by the gap between two cover plates 4.
Be specially, the fin 1 of each sheet includes two cover plates 4, all is formed with groove 5 on each cover plate 4, as shown in Figure 5, be tightly connected after two cover plates 4 fasten mutually and by the mode of welding, the groove 5 on corresponding two cover plates 4 fastens the back and forms thermal conductive cavity 6.On the cover plate 4 many grooves 5 can be set, two cover plates 4 fasten and are welded to connect the back and form many thermal conductive cavities 6, preferably be welded to each other, many thermal conductive cavities 6 in each cover plate 4 are interconnected by the gap between two cover plates 4 at the edge of two cover plates 4.Cover plate 4 structural strengths that are provided with multiple tracks groove 5 are better, and when undergoing phase transition process in thermal conductive cavity 6, cover plate 4 is not easy to expand and damages.The thermal conductive cavity 6 of each groove 5 correspondences is to be connected by the gap between the cover plate 4, thereby can obtain heat loss through conduction effect preferably.
Wherein, interface 2 on the fin 1 can be arranged on top, centre and/or the bottom of fin 1, preferably interface 2 is separately positioned on the top and the bottom of fin 1, interface on the adjacent fin 12 interfixed be tightly connected, for example, can weld from the outside or the inside of interface 2, connect or other modes that are tightly connected by welding manner, preferably be welded to connect by the screw thread mode.Interconnective interface 2 is communicated with the thermal conductive cavity 6 of each fin 1.Heating rod 3 passes the interface 2 of each fin 1 bottom, be tightly connected in the screw thread mode by the interface 2 that is installed in flange 14 and fin 1 bottom on the heating rod 3, make heating rod 3 sealing be installed in fin 1 bottom and be communicated with thermal conductive cavity 6, flange 14 outsides are reserved with the joint 31 of heating rod 3, are used to connect lead.At last, in the thermal conductive cavity 6 of fin 1, add superconducting fluid and fin 1 is carried out exhaust vacuumize processing.
In the course of the work, after the joint 31 of heating rod 3 connects the power supply energising, heating rod 3 produces thermal energy conduction to the superconducting fluid in fin 1 thermal conductive cavity 6, and superconducting fluid is heated and is undergone phase transition to uniform temperature, circulates the conduction heat in the thermal conductive cavity 6 of the superconducting fluid after the phase transformation in fin 1.
The vacuum superconducting electric heater that the utility model embodiment one provides, be set to laminated structure by fin, make between the adjacent fin over against area of dissipation enlarge markedly, cold air is when the gap of passing between the fin of sheet, the heating surface (area) (HS of cold air contact is bigger, the heated time is longer, therefore, the efficiency of heating surface significantly improves. with respect to existing vacuum superconducting electric heater, the utility model embodiment one has improved the efficiency of heating surface, radiating effect is better. and for the sheet fin that existing employing heating wet goods is realized heating, the oily line that adds deep fat owing to set holding in the existing fin is isolated from each other, cause the fin cavity very little, radiating effect is very poor, and it is low to the sealing requirements of fin to add deep fat. be specially the vacuum superconducting electric heater high in the present embodiment to sealing requirements, and can form each fin by welding, and, heat sink conducts heat chamber in the present embodiment is interconnected by the gap between two cover plates, it is big that the cavity of the thermal conductive cavity of entire heat dissipation sheet becomes, superconducting fluid can circulate in thermal conductive cavity, strengthen the flowability of superconducting fluid, strengthened heat dispersion.
Embodiment two
The front view of the vacuum superconducting electric heater that Fig. 6 provides for the utility model embodiment two.As shown in Figure 6, present embodiment can be based on the foregoing description one, its difference is: between the adjacent fin 1 tube connector 7 is set also in vacuum superconducting electric heater, the two ends of tube connector 7 are connected with the outside weldings of the interface 2 of adjacent two fin 1 respectively, thereby connect adjacent fin 1.Be connected by the thermal conductive cavity 6 of tube connector 7 with each fin 1, tube connector 7 preferred length scopes are 2 centimetres of (cm)~2.5cm.
The technical scheme of present embodiment is by being welded to connect tube connector 7 interface 2 with adjacent fin 1, further solved the problem of fin 1 junction possibility gas leakage, therefore can guarantee further that vacuum superconducting electric heater is to vacuum requirements, improve heating properties, increase the service life.Simultaneously, owing to be welded with tube connector 7 between the fin 1, the distance between the fin 1 is strengthened, it is big that the air channel that forms between the fin 1 also becomes thereupon, radiating surface between the adjacent fin 1 is distribute heat fully, realizes the raising of superconducting electric heater radiating efficiency.
On the basis of technique scheme, the preferred porcelain that adopts in the surface of fin 1 and/or tube connector 7 is handled, and promptly also comprises porcelain layer on the surface of fin 1 and/or tube connector 7.Be specially, the surface that utilizes porcelain to handle fin 1 and tube connector 7 processes processing, makes the surface of fin 1 and tube connector 7 evenly be coated with one deck ceramic material.
By fin 1 and tube connector 7 surfaces are carried out the porcelain processing, by castiron fin 1 and tube connector 7, can increase its superficial density with respect to usually, strengthen air-tightness, also strengthened the structural strength of vacuum superconducting electric heater outside simultaneously.Because the surface of fin 1 and tube connector 7 evenly is coated with one deck ceramic material, more effectively prevent the generation of disappointing gas leak phenomenon, the sealing property of entire equipment is promoted, guarantee that vacuum superconducting electric heater is to vacuum requirements.Simultaneously, ceramic material has the function of insulation, and the temperature retention time of vacuum superconducting electric heater is increased, and heat-insulating property strengthens.And after the porcelain processing, the outward appearance of vacuum superconducting electric heater is more attractive in appearance.
Embodiment three
The front view of the vacuum superconducting electric heater that Fig. 7 provides for the utility model embodiment three.As shown in Figure 7, present embodiment can be based on the foregoing description one or embodiment two, its difference is: vacuum superconducting electric heater also is provided with sleeve pipe 8, sleeve pipe 8 is located among each continuous tube connector 7, especially be located in each tube connector 7 of fin 1 bottom, heating rod 3 is inserted among the sleeve pipe 8; Gap between the outer wall of sleeve pipe 8 and fin 1 and the tube connector 7 is communicated with thermal conductive cavity 6 sealings.
The technical scheme of present embodiment is by being provided with sleeve pipe 8 and heating rod 3 being inserted in the sleeve pipe 8, can realize separating of heating rod 3 and thermal conductive cavity 6.In the use of vacuum superconducting electric heater, the use of heating rod 3 has certain life-span, and its life-span is often short than electric heater, needs to change heating rod 3 in use for some time.Because heating rod 3 is separated setting with thermal conductive cavity 6, make the operation of changing heating rod 3 simpler, and, when changing heating rod 3, do not need fin 1 is done application of vacuum again, strengthened the practicality of vacuum superconducting electric heater.Simultaneously, the gap between the outer wall of sleeve pipe 8 and fin 1 and the tube connector 7 is communicated with thermal conductive cavity 6 sealings, and the more effective generation that prevents disappointing phenomenon has strengthened the vacuum of vacuum superconducting electric heater.
Further, the copper sleeve pipe of the employing of sleeve pipe 8, sleeve pipe 8 and fin 1 junction adopt that to be welded to connect the heat transfer property that forms the copper sleeve pipe 8 of weld seam 81. strong, the thermal energy transfer that can effectively heating rod 3 be produced is given the superconducting fluid in the fin 1, raising is to the efficiency of heating surface of superconducting fluid. and adopt the mode of welding that sleeve pipe 8 and fin 1 junction are handled, can effectively prevent the phenomenon that sleeve pipe 8 and fin 1 junction leak air, guarantee that vacuum superconducting electric heater is to vacuum requirements. in addition, can also be in sleeve pipe 8 filling heat-conductive oil, heating rod 3 is covered by conduction oil. the heat that can more effective conduction heating rod 3 produces by filling heat-conductive oil, and can prevent heating rod 3 dry combustion methods, prolong the service life of heating rod 3.
Embodiment four
The right view of outward appearance decoration panel in the vacuum superconducting electric heater that the front view of the vacuum superconducting electric heater that Fig. 8 provides for the utility model embodiment four, Fig. 9 provide for the utility model embodiment four.Shown in Fig. 8,9, vacuum superconducting electric heater is at the arranged outside decorative appearance panel 9 of fin 1, and decorative appearance panel 9 comprises liquid crystal panel 12, switch 11 and louvre 10.In use, by power interface 13 connect electricity warm after, press switch 11 after, liquid crystal panel 12 will show the duty of vacuum superconducting electric heater.Can make things convenient for the operation of user to vacuum superconducting electric heater by decorative appearance panel 9 is set, the louvre 10 on the decorative appearance panel 9 can distribute the heat that is sent by the fin 1 of decorative appearance panel 9 coverings.
It should be noted that at last: above embodiment only in order to the explanation the technical solution of the utility model, is not intended to limit; Although the utility model is had been described in detail with reference to previous embodiment, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technical scheme that aforementioned each embodiment put down in writing, and perhaps part technical characterictic wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the spirit and scope of each embodiment technical scheme of the utility model.
Claims (8)
1. a vacuum superconducting electric heater comprises heating rod and fin, it is characterized in that:
Described fin be shaped as sheet, each described fin comprises mutual fastening and two cover plates that are welded to connect, and is formed with the multiple tracks groove respectively on two cover plates, forms a plurality of thermal conductive cavities behind fastening;
The edge of two described cover plates is welded to each other, and a plurality of described thermal conductive cavity on each described fin is interconnected by the gap between two described cover plates.
2. vacuum superconducting electric heater according to claim 1 is characterized in that, also comprises: tube connector, the two ends of described tube connector are connected with the outside weldings of the interface of adjacent two described fin respectively, thereby connect adjacent described fin.
3. vacuum superconducting electric heater according to claim 2 is characterized in that: the surface of described fin and/or described tube connector comprises porcelain layer.
4. according to claim 2 or 3 described vacuum superconducting electric heaters, it is characterized in that, also comprise:
Sleeve pipe, described sleeve pipe are located among each continuous described tube connector, and described heating rod is inserted among the described sleeve pipe; Gap between the outer wall of described sleeve pipe and described fin and the described tube connector is communicated with described thermal conductive cavity sealing.
5. vacuum superconducting electric heater according to claim 4 is characterized in that: described sleeve pipe is copper sleeve pipe, and the junction of described sleeve pipe and described fin is for being welded to connect.
6. vacuum superconducting electric heater according to claim 4 is characterized in that: in the described sleeve pipe conduction oil is set.
7. vacuum superconducting electric heater according to claim 2 is characterized in that: described tube connector length range is 2 centimetres~2.5 centimetres.
8. according to claim 1 or 2 or 3 described vacuum superconducting electric heaters, it is characterized in that, also comprise: the decorative appearance panel be arranged on the outside of described fin, and described decorative appearance panel comprises liquid crystal panel, switch and louvre.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2009201092772U CN201463103U (en) | 2009-06-15 | 2009-06-15 | Vacuum superconducting electric heater |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2009201092772U CN201463103U (en) | 2009-06-15 | 2009-06-15 | Vacuum superconducting electric heater |
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CN201463103U true CN201463103U (en) | 2010-05-12 |
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CN2009201092772U Expired - Fee Related CN201463103U (en) | 2009-06-15 | 2009-06-15 | Vacuum superconducting electric heater |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102500701A (en) * | 2011-11-14 | 2012-06-20 | 陈玺仁 | Automatic manufacturing process for heat exchange blades of close loop liquid circulation electric heaters |
GB2525203A (en) * | 2014-04-15 | 2015-10-21 | Pa Knowledge Ltd | Radiator |
-
2009
- 2009-06-15 CN CN2009201092772U patent/CN201463103U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102500701A (en) * | 2011-11-14 | 2012-06-20 | 陈玺仁 | Automatic manufacturing process for heat exchange blades of close loop liquid circulation electric heaters |
GB2525203A (en) * | 2014-04-15 | 2015-10-21 | Pa Knowledge Ltd | Radiator |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20100512 Termination date: 20100615 |