CN204541797U - A kind of thermal-collecting energy-saving heat conducting disk - Google Patents
A kind of thermal-collecting energy-saving heat conducting disk Download PDFInfo
- Publication number
- CN204541797U CN204541797U CN201520261633.8U CN201520261633U CN204541797U CN 204541797 U CN204541797 U CN 204541797U CN 201520261633 U CN201520261633 U CN 201520261633U CN 204541797 U CN204541797 U CN 204541797U
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- heat conduction
- disk body
- thermal
- conduction baffle
- conductive structure
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Abstract
The utility model belongs to technical field of living goods, particularly relate to a kind of thermal-collecting energy-saving heat conducting disk, comprise circular disk body, described disk body bottom center position is provided with calcination portion, described disk body bottom surface is provided with some conductive structures, the heat conduction space being used for the flame of disk body center being directed at disk body surrounding is formed between described conductive structure, height near the described conductive structure in described calcination portion is greater than the height of the conductive structure away from calcination portion, and described disk body bottom surface is provided with the mounting groove matched with stove support.The thermal-collecting energy-saving heat conducting disk that the utility model provides, effectively guides the flame of burning things which may cause a fire disaster, and reduce flame dissipation, effectively collect heat, and be heated evenly, heating effect is good, improves the efficiency of heating surface, saves time, and economize energy.Be applicable to very much various household gas range to use, heat up water, cooking, the effect of cooking be all very good.
Description
Technical field
The utility model belongs to technical field of living goods, particularly relates to a kind of thermal-collecting energy-saving heat conducting disk.
Background technology
In daily life, people usually use the kitchen range such as stove, gas-cooker directly to heat pot, kettle etc., normally a stove support is set on stove or gas-cooker, heat at the bottom of the direct flame contact the bottom of a pan or kettle, but because heating surface area is little, the dissipation of part flame can not effectively be heated, and firepower dispersion, not easily concentrate, make the efficiency of heating surface low.Heat conducting disk, as a kind of thermal-collecting energy-saving structure, is normally placed on burning things which may cause a fire disaster, then in heat conducting disk, places pot, kettle etc., collect heat by heating plate by heat conducting disk, and makes to be heated evenly, to improve the efficiency of heating surface.
But the diapire of existing heat conducting disk is planar structure, when it is placed on burning things which may cause a fire disaster, little with the contact area of burning things which may cause a fire disaster, cause a lot of flame dissipation effectively not heat, make heat invalid lost, and it is uneven to be heated, heat conductivility is low, and serviceability is poor.
Utility model content
The purpose of this utility model is to provide a kind of thermal-collecting energy-saving heat conducting disk, can pilot flame, collects more burning things which may cause a fire disaster heat, good heat conductivity, and is heated evenly, save time and the energy.
The utility model realizes like this, a kind of thermal-collecting energy-saving heat conducting disk, comprise circular disk body, described disk body bottom center position is provided with the calcination portion for flame calcination, described disk body bottom surface is provided with some conductive structures, the heat conduction space being used for the flame of disk body center being directed at disk body surrounding is formed between described conductive structure, height near the described conductive structure in described calcination portion is greater than the height of the conductive structure away from calcination portion, and described disk body bottom surface is provided with the mounting groove matched with stove support.
Improve as one, the height of described conductive structure diminishes gradually along disk body center to the direction of surrounding.
As improving further, described conductive structure is the heat conduction baffle extended along described disk body radial direction, and form thermal trough between adjacent described heat conduction baffle, described heat conduction baffle comprises long heat conduction baffle and is arranged on the short heat conduction baffle between described long heat conduction baffle.
As improving further, described conductive structure is the arc heat conduction baffle extended along described disk body center to disk body surrounding, form thermal trough between adjacent described arc heat conduction baffle, described arc heat conduction baffle comprises long arc shape heat conduction baffle and is arranged on the short arc heat conduction baffle between described long arc shape heat conduction baffle.
As improving further, described arc heat conduction baffle extends S-shaped.
As improving further, described conductive structure is heat conduction projection, described heat conduction projection array distribution centered by the center of circle of described disk body.
As improving further, described heat conduction projection expands spherical in shape away from one end of described disk body.
Owing to adopting technique scheme, the beneficial effects of the utility model are:
Bottom surface due to thermal-collecting energy-saving heat conducting disk is provided with calcination portion and conductive structure, heat conduction space is formed between conductive structure, and the height near the conductive structure burning portion is greater than the height away from the conductive structure burning portion, effectively the flame burning portion can be guided to disk body surrounding, reduce flame dissipation, and structure is simple, saving material compared with highly constant conductive structure, disk body and conductive structure is made can effectively to collect burning things which may cause a fire disaster heat, reduce heat invalid lost, and disk body is heated evenly, heating effect is good, economize energy, and the raising efficiency of heating surface, save time, there is extraordinary serviceability.
Because the height of conductive structure diminishes gradually along disk body center to the direction of surrounding, pilot flame and heat better, effectively collects burning things which may cause a fire disaster heat, and is convenient to processing and manufacturing.
Because conductive structure is the heat conduction baffle extended along disk body radial direction, form thermal trough between adjacent heat conduction baffle, heat conduction baffle comprises long heat conduction baffle and is arranged on the short heat conduction baffle between long heat conduction baffle, and heat conduction is effective with collection heat.
Because conductive structure is along disk body center to the arc heat conduction baffle that disk body surrounding extends, thermal trough is formed between adjacent arc heat conduction baffle, arc heat conduction baffle comprises long arc shape heat conduction baffle and is arranged on the short arc heat conduction baffle between long arc shape heat conduction baffle, pilot flame spreads direction, extend propagation of flame stroke, reduce flame dissipation.Reduce heat loss, especially arc heat conduction baffle extends S-shaped, heat conduction and collection heat better effects if.
Because conductive structure is heat conduction projection, heat conduction projection is array distribution centered by the center of circle of disk body, and heat conduction projection can effectively collect burning things which may cause a fire disaster heat, and heat conduction projection expands spherical in shape away from one end of disk body, has the effect of collecting heat better.
Accompanying drawing explanation
Fig. 1 is the disk body bottom surface structure schematic diagram of embodiment one;
Fig. 2 be along A-A in Fig. 1 to sectional view;
Fig. 3 is the disk body bottom surface structure schematic diagram of embodiment two;
Fig. 4 is the disk body bottom surface structure schematic diagram of embodiment three;
Fig. 5 is the structural representation of heat conduction projection in embodiment three;
Wherein, 1-disk body, 2-calcination portion, 3-mounting groove, 4-heat conduction baffle, the long heat conduction baffle of 41-, the short heat conduction baffle of 42-, 5-thermal trough, 6-arc heat conduction baffle, 61-long arc shape heat conduction baffle, 62-short arc heat conduction baffle, 7-heat conduction projection.
Detailed description of the invention
In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.
Embodiment one
As Fig. 1 and Fig. 2 jointly shown in, a kind of thermal-collecting energy-saving heat conducting disk, comprise circular disk body 1, disk body 1 bottom center position is provided with the calcination portion 2 for flame calcination, disk body 1 bottom surface is provided with some conductive structures, the heat conduction space being used for the flame of disk body 1 center being directed at disk body 1 surrounding is formed between conductive structure, height near the conductive structure in calcination portion 2 is greater than the height of the conductive structure away from calcination portion 2, disk body 1 bottom surface is provided with the mounting groove 3 matched with stove support, particularly, in the heat conduction space of mounting groove 3 between conductive structure.
In the present embodiment, conductive structure is the heat conduction baffle 4 extended along disk body 1 radial direction, the height of heat conduction baffle 4 diminishes gradually along disk body 1 center to the direction of surrounding, thermal trough 5 is formed, the short heat conduction baffle 42 that heat conduction baffle 4 comprises long heat conduction baffle 41 and is arranged between long heat conduction baffle 41 between adjacent heat conduction baffle 4.
In a particular application, disk body 1 and heat conduction baffle 4 are formed in one structure, use the albronze of good heat conduction effect, aluminium alloy or stainless steel material to make.
Embodiment two
As shown in Figure 3, the present embodiment is substantially identical with the structure of embodiment one, its difference is, conductive structure is along disk body 1 center to the arc heat conduction baffle 6 that disk body 1 surrounding extends, thermal trough 5 is formed between adjacent arc heat conduction baffle 6, arc heat conduction baffle 6 comprises long arc shape heat conduction baffle 61 and is arranged on the short arc heat conduction baffle 62 between long arc shape heat conduction baffle 61, and preferably, arc heat conduction baffle 6 extends S-shaped.
Embodiment three
As Fig. 4 and Fig. 5 jointly shown in, the present embodiment is substantially identical with the structure of embodiment one, and its difference is, conductive structure is heat conduction projection 7, heat conduction projection 7 is array distribution centered by the center of circle of disk body 1, and particularly, heat conduction projection 7 expands spherical in shape away from one end of disk body 1.
The thermal-collecting energy-saving heat conducting disk that the utility model provides, effectively guides the flame of burning things which may cause a fire disaster, and reduce flame dissipation, effectively collect heat, and be heated evenly, heating effect is good, improves the efficiency of heating surface, saves time, and economize energy.Be applicable to very much various household gas range to use, heat up water, cooking, the effect of cooking be all very good.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.
Claims (7)
1. a thermal-collecting energy-saving heat conducting disk, it is characterized in that, comprise circular disk body, described disk body bottom center position is provided with the calcination portion for flame calcination, described disk body bottom surface is provided with some conductive structures, form the heat conduction space being used for the flame of disk body center being directed at disk body surrounding between described conductive structure, the height near the described conductive structure in described calcination portion is greater than the height of the conductive structure away from calcination portion, and described disk body bottom surface is provided with the mounting groove matched with stove support.
2. thermal-collecting energy-saving heat conducting disk according to claim 1, is characterized in that, the height of described conductive structure diminishes gradually along disk body center to the direction of surrounding.
3. thermal-collecting energy-saving heat conducting disk according to claim 1 and 2, it is characterized in that, described conductive structure is the heat conduction baffle extended along described disk body radial direction, form thermal trough between adjacent described heat conduction baffle, described heat conduction baffle comprises long heat conduction baffle and is arranged on the short heat conduction baffle between described long heat conduction baffle.
4. thermal-collecting energy-saving heat conducting disk according to claim 1 and 2, it is characterized in that, described conductive structure is the arc heat conduction baffle extended along described disk body center to disk body surrounding, form thermal trough between adjacent described arc heat conduction baffle, described arc heat conduction baffle comprises long arc shape heat conduction baffle and is arranged on the short arc heat conduction baffle between described long arc shape heat conduction baffle.
5. thermal-collecting energy-saving heat conducting disk according to claim 4, is characterized in that, described arc heat conduction baffle extends S-shaped.
6. thermal-collecting energy-saving heat conducting disk according to claim 1 and 2, is characterized in that, described conductive structure is heat conduction projection, described heat conduction projection array distribution centered by the center of circle of described disk body.
7. thermal-collecting energy-saving heat conducting disk according to claim 6, is characterized in that, described heat conduction projection expands spherical in shape away from one end of described disk body.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520261633.8U CN204541797U (en) | 2015-04-27 | 2015-04-27 | A kind of thermal-collecting energy-saving heat conducting disk |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520261633.8U CN204541797U (en) | 2015-04-27 | 2015-04-27 | A kind of thermal-collecting energy-saving heat conducting disk |
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CN204541797U true CN204541797U (en) | 2015-08-12 |
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CN201520261633.8U Expired - Fee Related CN204541797U (en) | 2015-04-27 | 2015-04-27 | A kind of thermal-collecting energy-saving heat conducting disk |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108357801A (en) * | 2018-04-04 | 2018-08-03 | 深圳市神品新零售有限公司 | Pack prepared food self-heated device |
-
2015
- 2015-04-27 CN CN201520261633.8U patent/CN204541797U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108357801A (en) * | 2018-04-04 | 2018-08-03 | 深圳市神品新零售有限公司 | Pack prepared food self-heated device |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150812 Termination date: 20170427 |
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CF01 | Termination of patent right due to non-payment of annual fee |