CN206620313U - Heat-generating disc and cooking apparatus - Google Patents
Heat-generating disc and cooking apparatus Download PDFInfo
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- CN206620313U CN206620313U CN201720212294.3U CN201720212294U CN206620313U CN 206620313 U CN206620313 U CN 206620313U CN 201720212294 U CN201720212294 U CN 201720212294U CN 206620313 U CN206620313 U CN 206620313U
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Abstract
The utility model provides a kind of heat-generating disc and cooking apparatus, and heat-generating disc includes:Non-circular disk body;Heat-generating pipe, heat-generating pipe is arranged on the first face of non-circular disk body;At least one radiating ribs, radiating ribs are arranged on the first face of non-circular disk body, and one end of radiating ribs extends to the middle part of non-circular disk body, and the other end and the heat-generating pipe heat transfer of radiating ribs coordinate.The heat that the technical scheme can be produced heat-generating pipe by setting radiating ribs on the back side of non-circular disk body is dispersed into the middle part of non-circular disk body by radiating ribs, so as to solve because the size of the length and width of non-circular disk body it is inconsistent caused by heat on non-circular disk body it is uneven the problem of, and then the ratio of heat distribution in the integral disc dignity of non-circular disk body can be made more uniform.Meanwhile, by setting radiating ribs on the one hand can improve the intensity of non-circular disk body, the thickness of non-circular disk body on the other hand can be reduced.
Description
Technical field
The utility model is related to household appliance technical field, more specifically, is related to a kind of heat-generating disc and cooking apparatus.
Background technology
Heat-generating disc is the important component in many living electric apparatus, and major function is heating heat supply, and the structure of heat-generating disc is to electricity
The function important of device.Part heat-generating disc is included disk body and is arranged on by heat-generating pipe heating heat supply, this kind of heat-generating disc
The heat-generating pipe at the disk body back side, heat-generating pipe transfers heat to disk body.And occur in that a kind of non-circular heat-generating disc at present, such as it is oval
Shape heat-generating disc, this oval heat-generating disc is unequal due to its length and width size, therefore, and heat-generating pipe is arranged on the back side of disk body
Afterwards, distance of the heat-generating pipe to the edge of heat-generating disc major axis and short axle and to disk body center is unequal, so as to cause heat-generating pipe
The heat being delivered in disc surfaces is inconsistent, so that cause the Temperature Distribution of disc surfaces to there is larger temperature difference, so that
Internally can not uniformly it be heated pot etc..
Therefore, the more uniform consistent heat-generating disc of heat ratio on the surface for the disk body for how designing a heat-generating disc turns into mesh
Preceding urgent problem to be solved.
Utility model content
The utility model is intended at least solve one of technical problem present in prior art or correlation technique.
The utility model is based on above mentioned problem, and there is provided a kind of heat-generating disc.
Another purpose of the utility model is to include the cooking apparatus of above-mentioned heat-generating disc there is provided a kind of.
To achieve the above object, the utility model first aspect embodiment provides a kind of heat-generating disc, including:Noncircular pad
Body;Heat-generating pipe, the heat-generating pipe is arranged on the first face of the non-circular disk body;At least one radiating ribs, the radiating ribs
On the first face of the non-circular disk body, one end of the radiating ribs extends to the middle part of the non-circular disk body, institute
The other end and the heat-generating pipe heat transfer for stating radiating ribs coordinate.
According to the heat-generating disc of embodiment of the present utility model, on the first face of non-circular disk body, i.e., the back of the body of non-circular disk body
Radiating ribs are set on face, and radiating ribs can carry out heat transfer cooperation with heat-generating pipe, so as to the heat for producing heat-generating pipe
The middle part of non-circular disk body is dispersed into by radiating ribs, so as to solve because the length and width of non-circular disk body size not
The problem of heat caused by consistent on non-circular disk body is uneven, and then cause the heat in the overall card of non-circular disk body
The ratio for measuring distribution is more uniform, so as to which internally pot etc. is uniformly heated.Meanwhile, by setting radiating ribs on the one hand can also
The intensity of non-circular disk body is improved, on the other hand when the intensity of heat-generating disc is the same, by setting radiating ribs can also be by not rounded
It is thinner that shape disk body is designed, thus can reduce the thickness of non-circular disk body, so as to can reduce the cost of product, improves production
The cost performance of product.
In addition, the heat-generating disc provided according to the utility model above-described embodiment also has following additional technical feature:
In the above-mentioned technical solutions, it is preferable that the other end of the radiating ribs coordinates with the heat-generating pipe heat transfer, and prolongs
Extend the edge of the non-circular disk body.
In the technical scheme, it will can be sent out by the edge that the other end of radiating ribs is extended to the non-circular disk body
The heat that heat pipe is produced is guided to the edge of non-circular disk body, it is thus possible to is increased the heat of the edge of non-circular disk body, is entered
And the ratio that the middle part of non-circular disk body and the heat at edge can be made to be distributed is more uniform, so as to which internally pot etc. is carried out uniformly
Heating.
In the above-mentioned technical solutions, it is preferable that the center of the non-circular disk body is provided with mounting hole, described at least one
Individual radiating ribs include:Cage bar, main ribs extend from the edge of the mounting hole along the length direction of the non-circular disk body
To the edge of the non-circular disk body;Multiple diagonal bars, one end of the diagonal bar is connected to main ribs, the other end of the diagonal bar
Tilt the edge for extending to the non-circular disk body;Horizontal bar, the horizontal bar is from the edge of the mounting hole along described non-circular
The width of disk body extends to the edge of the non-circular disk body.
, can be by heat-generating disc application by setting mounting hole in the center of non-circular disk body in the technical scheme
In electric cooker etc., temperature controller is installed by mounting hole and fitted on interior pot, so as to which internally the temperature of pot is detected.
And radiating ribs include cage bar, diagonal bar and horizontal bar, so that just the heat of heat-generating pipe can be dispersed into by cage bar, diagonal bar and horizontal bar
On each edge of non-circular disk body and non-circular disk body middle part, and then can ensure that heat on the surface of noncircular pad body
Uniformity.Wherein, specifically, cage bar can be by the lower edges and noncircular pad of the heat spreader of heat-generating pipe to non-circular disk body
The middle part of body, horizontal bar can be by the left and right edges of the heat spreader of heat-generating pipe to non-circular disk body and the middle part of non-circular disk body, tiltedly
Muscle can tilt the heat of heat-generating pipe at the other positions distributed to the surrounding of non-circular disk body and non-circular disk body, so as to pass through master
The even heat that heat-generating pipe is produced just can be distributed on non-circular disk body by muscle, diagonal bar and horizontal bar, so that heat-generating disc can be equal
The part such as pot in even heating.
In above-mentioned multiple technical schemes, it is preferable that the quantity of main ribs is two, and two main ribs are symmetrical
Ground is arranged on the non-circular disk body, and/or the quantity of the horizontal bar is two, and two horizontal bars symmetrically are set
On the non-circular disk body, and/or the multiple diagonal bar is symmetrical arranged on the non-circular disk body on main ribs, and
The multiple diagonal bar is symmetrical arranged on the non-circular disk body on the horizontal bar.
In those technical schemes, the quantity of diagonal bar is preferably 4, and preferably, 4 diagonal bars are equal on cage bar and horizontal bar
Symmetrically, this kind, which is set, to constitute a class M shape by two cage bars, two horizontal bars and multiple diagonal bars, so as to utilize class rice
It is dispersed on each position of non-circular disk body the even heat that font produces heat-generating pipe, and the structure of M shape substantially can
The back side of enough whole non-circular disk bodies of covering, it is thus possible to which make that the heat on non-circular disk body is distributed is more uniform.
In above-mentioned multiple technical schemes, it is preferable that the non-circular disk body is oval disk body, the perpendicular muscle is along institute
The major axis for stating oval disk body is set, and short axle of the horizontal bar along the oval disk body is set.
In the technical scheme, when non-circular disk body is oval disk body, major axis of the muscle along the oval disk body is erected
Set, short axle of the horizontal bar along oval disk body, which is set, can make non-circular disk body be in symmetrical structure, it is thus possible to make non-circular
It is more uniform that heat on disk body is distributed.
In above-mentioned multiple technical schemes, it is preferable that the angle between the diagonal bar and main ribs is more than or equal to 50 °
In the range of 70 °.
It is wider by set that diagonal bar can distribute the heat that heat-generating pipe is produced in those technical schemes, and diagonal bar
The angle beta between cage bar preferably more than or equal to 50 ° be less than or equal to 70 ° in the range of, this kind of angle of inclination causes diagonal bar
The edge of non-circular disk body can preferably be extended to, it is thus possible to be distributed the heat on non-circular disk body more equal
It is even.Wherein, further, it is preferable that the angle β between diagonal bar and cage bar is equal to 60 °.
In above-mentioned multiple technical schemes, it is preferable that the height of main ribs is being less than or equal to 9mm's more than or equal to 1mm
In the range of, and/or the diagonal bar height more than or equal to 4mm be less than or equal to 8mm in the range of, the height of the horizontal bar is big
It is less than or equal in equal to 1mm in the range of 7mm.
In those technical schemes, by the way that the height of cage bar, diagonal bar and horizontal bar is set within the above range, master can be made
The height of muscle, diagonal bar and horizontal bar is more moderate, it is thus possible to make the whole height and intensity of heat-generating disc more moderate, it is thus possible to
Ensure that the total quality of heat-generating disc is preferable.Wherein it is preferred to, the height of cage bar is equal to 7mm, and the height of diagonal bar is equal to 6mm, described
The height of horizontal bar is equal in the range of 5mm.
In above-mentioned multiple technical schemes, it is preferable that be additionally provided with multiple installations on the first face of the non-circular disk body
Platform, one end of the diagonal bar is connected to main ribs, and the other end of the diagonal bar, which passes through the erecting bed and tilted, extends to institute
State the edge of non-circular disk body.
In those technical schemes, when non-circular disk body is used for electric cooker etc., non-circular disk body is arranged on the outer of electric cooker
In pot, and erecting bed is used to supporting heat-generating disc into the inner bottom wall for being arranged on outer pot, and diagonal bar extends to not rounded by erecting bed
The edge of shape disk body, can make non-circular disk body upper parts distribution it is more rationally compact, it is thus possible to improve heating
The bulk strength of disk, while also the heat on non-circular disk body can be made more uniform.
In above-mentioned multiple technical schemes, it is preferable that a ring shape muscle, the master are provided with the edge of the mounting hole
One end of muscle and the horizontal bar is connected to the annular muscle, and this kind, which is set, to be connected multiple perpendicular muscle and horizontal bar by annular muscle
Integrally, and then the intensity of heat-generating disc can be improved.Meanwhile, this kind is set also can realize heat-generating disc and outer pot using annular muscle
Positioning and assembling Deng between.
In above-mentioned multiple technical schemes, it is preferable that the width of the radiating ribs is being less than or equal to 4mm more than or equal to 2mm
In the range of.
In those technical schemes, the width of radiating ribs be difficult it is excessive be not easy to it is too small because the width of radiating ribs is excessive,
Whole heat-generating disc can be caused heavier, the width of radiating ribs be difficult it is too small because the width of radiating ribs is too small, it is impossible to by heat-generating pipe
Heat is distributed to the surrounding of non-circular disk body, and therefore, the width of radiating ribs is preferably being less than or equal to 4mm model more than or equal to 2mm
In enclosing, it is further preferred that the width of radiating ribs is equal to 3mm.
In above-mentioned multiple technical schemes, it is preferable that the heat-generating pipe is arranged on the non-circular disk body in a ring,
And the shape of the heat-generating pipe is consistent with the shape of the non-circular disk body.
In those technical schemes, heat-generating pipe is preferred on the first face of non-circular disk body, i.e., the back side of non-circular disk body
Set in a ring, like this enable heat-generating pipe to carry out 360 ° to non-circular disk body and heated without dead angle, it is thus possible to make hair
It is more uniform that the heat of hot plate is distributed.The shape of heat-generating pipe is consistent with the shape of non-circular disk body simultaneously, even noncircular pad
Body is ellipse, then heat-generating pipe also sets ovalisation on non-circular disk body, and this kind, which is set, enables the shape of heat-generating pipe
It is adapted with the shape of non-circular disk body, and then heat-generating pipe is more uniformly distributed heat on non-circular disk body.
In above-mentioned multiple technical schemes, it is preferable that be provided with CD lines on the second face of the non-circular disk body.
In those technical schemes, by setting CD lines to strengthen the anti-skidding of heat-generating disc on the front of non-circular disk body
Property, while can also strengthen the aesthetic property of heat-generating disc, in addition, by setting CD lines also to increase the second of non-circular disk body
The area in face, the i.e. back side, so as to the thermal conductivity in the second face for improving non-circular disk body.
In above-mentioned multiple technical schemes, it is preferable that the thickness of the non-circular disk body is less than or equal to more than or equal to 3mm
In the range of 6mm.
In those technical schemes, the thickness of circular disk body can be disposed greater than being equal to the scope that 3mm is less than or equal to 6mm
It is interior, because the intensity and thermal conductivity ratio of the disk body of this kind of thickness are more moderate, it is thus possible to ensure the entirety of heat-generating disc from many aspects
Quality.
Wherein, it is further preferred that the thickness of the non-circular disk body is 4mm, because, when thickness is 4mm, noncircular pad
The integrated artistic performance of body is best.
In above-mentioned multiple technical schemes, it is preferable that the non-circular disk body is made up of metal material, this kind is set can
Make the intensity of non-circular disk body more preferable, it is thus possible to improve the quality of product, meanwhile, non-circular disk body is made up of metal material,
The thermal conductivity of heat-generating disc can be made more preferable, so as to improve the efficiency of heating surface of heat-generating disc.
Wherein, it is further preferred that non-circular disk body is preferably made of stainless steel.
In above-mentioned multiple technical schemes, it is preferable that the heat-generating pipe, the radiating ribs are one with the non-circular disk body
Body formula structure.
In those technical schemes, heat-generating pipe, radiating ribs are integral type structure, the power of integral structure with non-circular disk body
Learn performance good, on the one hand can effectively ensure the bonding strength of heat-generating pipe, radiating ribs and non-circular disk body, so as to ensure heating
The intensity of disk, on the other hand effectively reduces the difficulty of processing of heat-generating disc, can be by heat-generating pipe, radiating ribs and non-circular disk body one
System is into batch production, to improve production efficiency, reduces process materials cost.
Wherein, it is further preferred that the heat-generating pipe, the radiating ribs and the non-circular disk body integrated injection molding,
The mode of integrated injection molding can further reduce the difficulty of processing of product, improve the processing efficiency of product, while one note
The type of being moulded into can also make between heat-generating pipe, radiating ribs and non-circular disk body for be seamlessly connected so that heat-generating pipe, radiating ribs with
What can be connected between non-circular disk body is more firm.
The embodiment of the utility model second aspect proposes a kind of cooking apparatus, and the cooking apparatus includes above-mentioned technology
Heat-generating disc any one of scheme.
According to the cooking apparatus of embodiment of the present utility model, provided with the utility model first aspect any embodiment
Heat-generating disc, therefore the cooking apparatus has the whole beneficial effects for the heat-generating disc that any of the above-described embodiment provides.Herein no longer
Repeat.
In the above-mentioned technical solutions, it is preferable that the cooking apparatus also includes:Outer pot, the heat-generating disc is arranged on described
In outer pot;Interior pot, the interior pot is arranged on the heat-generating disc in the outer pot;Wherein, the heat-generating disc is used to heat institute
State interior pot.
In the technical scheme, heat-generating disc can be applied in the cooking apparatus such as electric cooker and electric pressure cooking saucepan, to utilize hair
Hot plate heats interior pot, and certainly, heat-generating disc can also be applied in the other products in addition to electric cooker and electric pressure cooking saucepan.
In the above-mentioned technical solutions, it is preferable that the cooking apparatus includes electric cooker and electric pressure cooking saucepan.
Additional aspect and advantage of the present utility model will be provided in following description section, partly by from following description
In become obvious, or by it is of the present utility model practice recognize.
Brief description of the drawings
Of the present utility model above-mentioned and/or additional aspect and advantage will from description of the accompanying drawings below to embodiment is combined
Become substantially and be readily appreciated that, wherein:
Fig. 1 is a structural representation of the heat-generating disc provided according to embodiment of the present utility model;
Fig. 2 is another structural representation of the heat-generating disc provided according to embodiment of the present utility model.
Wherein, the corresponding relation in Fig. 1 and Fig. 2 between reference and component names is:
1 heat-generating disc, 12 non-circular disk bodies, 122 radiating ribs, 1222 cage bars, 1224 horizontal bars, 1226 diagonal bars, 124 erecting beds,
126 annular muscle, 128 mounting holes, 14 heat-generating pipes.
Embodiment
In order to be more clearly understood that above-mentioned purpose of the present utility model, feature and advantage, below in conjunction with the accompanying drawings and tool
The utility model is further described in detail body embodiment.It should be noted that in the case where not conflicting, this Shen
The feature in embodiment and embodiment please can be mutually combined.
Many details are elaborated in the following description to fully understand the utility model, still, this practicality
It is new to be different from mode described here using other and implement, therefore, protection domain of the present utility model not by
The limitation of following public specific embodiment.
The heat-generating disc 1 provided referring to Fig. 1 and Fig. 2 descriptions according to one embodiment of the present utility model.
As depicted in figs. 1 and 2, the utility model first aspect embodiment provides a kind of heat-generating disc 1, including:It is non-circular
Disk body 12;Heat-generating pipe 14, heat-generating pipe 14 is arranged on the first face of non-circular disk body 12;At least one radiating ribs 122, radiating ribs
122 are arranged on the first face of non-circular disk body 12, and one end of radiating ribs 122 extends to the middle part of non-circular disk body 12, radiating
The other end of muscle 122 coordinates with the heat transfer of heat-generating pipe 14.
According to the heat-generating disc 1 of embodiment of the present utility model, on the first face of non-circular disk body 12, i.e., non-circular disk body 12
The back side on set radiating ribs 122, and radiating ribs 122 can with heat-generating pipe 14 carry out heat transfer cooperation, so as to will heating
The heat that pipe 14 is produced is dispersed into the middle part of non-circular disk body 12 by radiating ribs 122, so as to solve because of non-circular disk body
The problem of heat caused by the size of 12 length and width is inconsistent on non-circular disk body 12 is uneven, and then cause non-
The ratio of heat distribution in the overall card of circular disk body 12 is more uniform, so as to which internally pot etc. is uniformly heated.Meanwhile,
By setting the one side of radiating ribs 122 to improve the intensity of non-circular disk body 12, on the other hand in the intensity one of heat-generating disc 1
It is thinner by set that radiating ribs 122 can also design non-circular disk body 12 during sample, thus non-circular disk body 12 can be reduced
Thickness, so that the cost of product can be reduced, improve the cost performance of product.
In the above embodiment, it is preferable that as depicted in figs. 1 and 2, the other end and the heat of heat-generating pipe 14 of radiating ribs 122 are passed
Cooperation is led, and extends to the edge of non-circular disk body 12.
In this embodiment, it will can be sent out by the way that the other end of radiating ribs 122 to be extended to the edge of non-circular disk body 12
The heat that heat pipe 14 is produced is guided to the edge of non-circular disk body 12, it is thus possible to increase the heat of the edge of non-circular disk body 12
Amount, and then the ratio that the middle part of non-circular disk body 12 and the heat at edge can be made to be distributed is more uniform, so as to internally pot etc.
Uniformly heated.
In the above embodiment, it is preferable that as depicted in figs. 1 and 2, the center of non-circular disk body 12 is provided with mounting hole
128, at least one radiating ribs 122 includes:Cage bar 1222, cage bar 1222 is from the edge of mounting hole 128 along non-circular disk body 12
Length direction extend to the edge of non-circular disk body 12;Multiple diagonal bars 1226, one end of diagonal bar 1226 is connected to cage bar 1222,
The other end of diagonal bar 1226 tilts the edge for extending to non-circular disk body 12;Horizontal bar 1224, horizontal bar 1224 is from the side of mounting hole 128
Width of the edge along non-circular disk body 12 extends to the edge of non-circular disk body 12.
In this embodiment, can be by heat-generating disc 1 by setting mounting hole 128 in the center of non-circular disk body 12
Apply in electric cooker etc., temperature controller is installed by mounting hole 128 and fitted on interior pot, so as to which internally the temperature of pot is entered
Row detection.And radiating ribs 122 include cage bar 1222, diagonal bar 1226 and horizontal bar 1224, so as to pass through cage bar 1222, the and of diagonal bar 1226
The heat of heat-generating pipe 14 just can be dispersed on each edge of non-circular disk body 12 and non-circular disk body 12 by horizontal bar 1224
Middle part, and then can ensure that the even heat on the surface of noncircular pad body 12 is consistent.Wherein, specifically, cage bar 1222 can be by
The heat spreader of heat-generating pipe 14 is to the lower edges of non-circular disk body 12 and the middle part of non-circular disk body 12, and horizontal bar 1224 will can be sent out
The heat spreader of heat pipe 14 is to the left and right edges of non-circular disk body 12 and the middle part of non-circular disk body 12, and diagonal bar 1226 will can generate heat
The heat of pipe 14 tilts the other positions distributed to the surrounding of non-circular disk body 12 and non-circular disk body 12, so as to pass through cage bar
1222nd, the even heat that diagonal bar 1226 and horizontal bar 1224 just can produce heat-generating pipe 14 is distributed on non-circular disk body 12, with
Heat-generating disc 1 is set uniformly to heat the parts such as interior pot.
In above-mentioned multiple embodiments, it is preferable that as depicted in figs. 1 and 2, the quantity of cage bar 1222 is two, two masters
Muscle 1222 symmetrically is arranged on non-circular disk body 12, and/or the quantity of horizontal bar 1224 is two, two phases of horizontal bar 1224
Mutually be symmetrically disposed on non-circular disk body 12, and/or multiple diagonal bars 1226 on non-circular disk body 12 on 1222 pairs of cage bar
Claim to set, and multiple diagonal bars 1226 are symmetrical arranged on non-circular disk body 12 on horizontal bar 1224.
In those embodiments, the quantity of diagonal bar 1226 is preferably 4, and preferably, 4 diagonal bars 1226 are on cage bar
1222 and horizontal bar 1224 it is symmetrical, this kind sets and can constitute two cage bars 1222, two horizontal bars 1224 and multiple diagonal bars 1226
One class M shape, non-circular disk body 12 is dispersed into so as to the even heat that produces heat-generating pipe 14 using class M shape
Each position on, and the structure of M shape can cover the back side of whole non-circular disk body 12 substantially, it is thus possible to make not rounded
It is more uniform that heat on shape disk body 12 is distributed.
In above-mentioned multiple embodiments, it is preferable that as depicted in figs. 1 and 2, non-circular disk body 12 is oval disk body, is erected
Major axis of the muscle along oval disk body is set, and short axle of the horizontal bar 1224 along oval disk body is set.
In this embodiment, when non-circular disk body 12 is oval disk body, erects major axis of the muscle along oval disk body and set,
Short axle of the horizontal bar 1224 along oval disk body, which is set, can make non-circular disk body 12 be in symmetrical structure, it is thus possible to make non-circular
It is more uniform that heat on disk body 12 is distributed.
In above-mentioned multiple embodiments, it is preferable that as depicted in figs. 1 and 2, the angle between diagonal bar 1226 and cage bar 1222
β is being less than or equal in the range of 70 ° more than or equal to 50 °.
In those embodiments, it is wider that the heat that can be produced heat-generating pipe 14 by setting diagonal bar 1226 is distributed, and
The angle beta between cage bar 1222 of diagonal bar 1226 is preferably being less than or equal in the range of 70 ° more than or equal to 50 °, and this kind is tilted
Angle enables diagonal bar 1226 preferably to extend to the edge of non-circular disk body 12, it is thus possible to make on non-circular disk body 12
Heat be distributed it is more uniform.Wherein, further, it is preferable that the angle β between diagonal bar 1226 and cage bar 1222 is equal to 60 °.
In above-mentioned multiple embodiments, it is preferable that as depicted in figs. 1 and 2, the height of cage bar 1222 is more than or equal to 1mm
In the range of 9mm, and/or the height of diagonal bar 1226 is less than or equal in the range of 8mm more than or equal to 4mm, horizontal bar
1224 height is less than or equal in the range of 7mm more than or equal to 1mm.
In those embodiments, by the way that the height of cage bar 1222, diagonal bar 1226 and horizontal bar 1224 is arranged on into above range
It is interior, the height of cage bar 1222, diagonal bar 1226 and horizontal bar 1224 can be made more moderate, it is thus possible to make the overall high of heat-generating disc 1
Degree and intensity are more moderate, it is thus possible to ensure that the total quality of heat-generating disc 1 is preferable.Wherein it is preferred to, the height of cage bar 1222
Equal to 7mm, the height of diagonal bar 1226 is equal to 6mm, and the height of horizontal bar 1224 is equal in the range of 5mm.
In above-mentioned multiple embodiments, it is preferable that as depicted in figs. 1 and 2, also set up on the first face of non-circular disk body 12
There are multiple erecting beds 124, one end of diagonal bar 1226 is connected to cage bar 1222, and the other end of diagonal bar 1226 passes through erecting bed 124 simultaneously
Tilt the edge for extending to non-circular disk body 12.
In those embodiments, when non-circular disk body 12 is used for electric cooker etc., non-circular disk body 12 is arranged on electric cooker
In outer pot, and erecting bed 124 is used to heat-generating disc 1 supporting inner bottom wall installed in outer pot, and diagonal bar 1226 passes through erecting bed
124 extend to the edge of non-circular disk body 12, can make non-circular disk body 12 upper parts distribution it is more rationally compact,
The bulk strength of heat-generating disc 1 thus can be improved, while can also make the heat on non-circular disk body 12 more uniform.
In above-mentioned multiple embodiments, it is preferable that as depicted in figs. 1 and 2, a circle is provided with the edge of mounting hole 128
One end of annular muscle 126, cage bar 1222 and horizontal bar 1224 is connected to annular muscle 126, and this kind, which is set, to be incited somebody to action by annular muscle 126
Multiple perpendicular muscle and horizontal bar 1224 link into an integrated entity, and then can improve the intensity of heat-generating disc 1.Meanwhile, this kind is set also being capable of profit
The positioning and assembling between heat-generating disc 1 and outer pot etc. are realized with annular muscle 126.
In above-mentioned multiple embodiments, it is preferable that the width of radiating ribs 122 is being less than or equal to 4mm model more than or equal to 2mm
In enclosing.
In those embodiments, the width of radiating ribs 122 be difficult it is excessive be not easy to it is too small because the width of radiating ribs 122
It is excessive, whole heat-generating disc 1 can be caused heavier, the width of radiating ribs 122 be difficult it is too small because the width of radiating ribs 122 is too small, nothing
Method distributes the heat of heat-generating pipe 14 to the surrounding of non-circular disk body 12, therefore, the width of radiating ribs 122 preferably more than or equal to
2mm is less than or equal in the range of 4mm, it is further preferred that the width of radiating ribs 122 is equal to 3mm.
In above-mentioned multiple embodiments, it is preferable that as depicted in figs. 1 and 2, heat-generating pipe 14 is arranged on non-circular in a ring
On disk body 12, and the shape of heat-generating pipe 14 is consistent with the shape of non-circular disk body 12.
In those embodiments, heat-generating pipe 14 is on the first face of non-circular disk body 12, i.e., the back side of non-circular disk body 12
It is preferred that setting in a ring, like this enable heat-generating pipe 14 to carry out 360 ° to non-circular disk body 12 and heated without dead angle, thus
Can make that the heat of heat-generating disc 1 is distributed is more uniform.The shape of heat-generating pipe 14 is consistent with the shape of non-circular disk body 12 simultaneously,
Even non-circular disk body 12 is ellipse, then heat-generating pipe 14 also sets ovalisation on non-circular disk body 12, and this kind, which is set, to be made
Obtaining the shape of heat-generating pipe 14 can be adapted with the shape of non-circular disk body 12, and then heat-generating pipe 14 more uniformly will
Heat is dispersed on non-circular disk body 12.
In above-mentioned multiple embodiments, it is preferable that be provided with CD lines on the second face of non-circular disk body 12.
In those embodiments, by setting CD lines to strengthen the anti-of heat-generating disc 1 on the front of non-circular disk body 12
Slip, while can also strengthen the aesthetic property of heat-generating disc 1, in addition, by setting CD lines also to increase non-circular disk body 12
The area in the second face, the i.e. back side, so as to the thermal conductivity in the second face for improving non-circular disk body 12.
In above-mentioned multiple embodiments, it is preferable that the thickness of non-circular disk body 12 is being less than or equal to 6mm more than or equal to 3mm
In the range of.
In those embodiments, the thickness of circular disk body can be disposed greater than being equal to the scope that 3mm is less than or equal to 6mm
It is interior, because the intensity and thermal conductivity ratio of the disk body of this kind of thickness are more moderate, it is thus possible to ensure the entirety of heat-generating disc 1 from many aspects
Quality.
Wherein, it is further preferred that the thickness of non-circular disk body 12 is 4mm, because, when thickness is 4mm, non-circular disk body
12 integrated artistic performance is best.
In above-mentioned multiple embodiments, it is preferable that non-circular disk body 12 is made up of metal material, this kind setting can make non-
The intensity of circular disk body 12 is more preferable, it is thus possible to improve the quality of product, meanwhile, non-circular disk body 12 is made up of metal material,
The thermal conductivity of heat-generating disc 1 can be made more preferable, so as to improve the efficiency of heating surface of heat-generating disc 1.
Wherein, it is further preferred that non-circular disk body 12 is preferably made of stainless steel.
In above-mentioned multiple embodiments, it is preferable that heat-generating pipe 14, radiating ribs 122 are integral type knot with non-circular disk body 12
Structure.
In those embodiments, heat-generating pipe 14, radiating ribs 122 are integral type structure, integral type knot with non-circular disk body 12
The mechanical property of structure is good, on the one hand can effectively ensure that heat-generating pipe 14, radiating ribs 122 and the connection of non-circular disk body 12 are strong
Degree, so as to ensure the intensity of heat-generating disc 1, on the other hand effectively reduce the difficulty of processing of heat-generating disc 1, can by heat-generating pipe 14,
Radiating ribs 122 are made into integration with non-circular disk body 12, batch production, to improve production efficiency, reduce process materials cost.
Wherein, it is further preferred that heat-generating pipe 14, radiating ribs 122 and the non-circular integrated injection molding of disk body 12, one note
The difficulty of processing of product can further be reduced by being moulded into the mode of type, the processing efficiency of product be improved, while integrated injection molding
It can also make to be seamlessly connected between heat-generating pipe 14, radiating ribs 122 and non-circular disk body 12, so that heat-generating pipe 14, radiating
What can be connected between muscle 122 and non-circular disk body 12 is more firm.
The embodiment of the utility model second aspect proposes a kind of cooking apparatus (not shown), and cooking apparatus includes
The heat-generating disc 1 of any one of above-described embodiment.
According to the cooking apparatus of embodiment of the present utility model, provided with the utility model first aspect any embodiment
Heat-generating disc 1, therefore the cooking apparatus has the whole beneficial effects for the heat-generating disc 1 that any of the above-described embodiment provides.Herein not
Repeat again.
In the above embodiment, it is preferable that cooking apparatus also includes:Outer pot, heat-generating disc 1 is arranged in outer pot;Interior pot, it is interior
Pot is arranged on the heat-generating disc 1 in outer pot;Wherein, heat-generating disc 1 is used to heat interior pot.
In this embodiment, heat-generating disc 1 can be applied in the cooking apparatus such as electric cooker and electric pressure cooking saucepan, to utilize heating
Disk 1 heats interior pot, and certainly, heat-generating disc 1 can also be applied in the other products in addition to electric cooker and electric pressure cooking saucepan.
In the above embodiment, it is preferable that cooking apparatus includes electric cooker and electric pressure cooking saucepan.
In the description of this specification, term " connection ", " installation ", " fixation " etc. all should be interpreted broadly, for example, " even
Connect " can be fixedly connected or be detachably connected, or be integrally connected;Can be joined directly together, can also be in
Between medium be indirectly connected to.For the ordinary skill in the art, above-mentioned term can be understood at this as the case may be
Concrete meaning in utility model.
In the description of this specification, the description of term " one embodiment " etc. means that combining the embodiment or example describes
Specific features, structure, material or feature be contained at least one embodiment of the present utility model or example.In this specification
In, identical embodiment or example are not necessarily referring to the schematic representation of above-mentioned term.Moreover, the specific features of description,
Structure, material or feature can in an appropriate manner be combined in any one or more embodiments or example.
Preferred embodiment of the present utility model is these are only, the utility model is not limited to, for this area
Technical staff for, the utility model can have various modifications and variations.It is all it is of the present utility model spirit and principle within,
Any modification, equivalent substitution and improvements made etc., should be included within protection domain of the present utility model.
Claims (11)
1. a kind of heat-generating disc, it is characterised in that including:
Non-circular disk body;
Heat-generating pipe, the heat-generating pipe is arranged on the first face of the non-circular disk body;
At least one radiating ribs, the radiating ribs are arranged on the first face of the non-circular disk body, one end of the radiating ribs
The middle part of the non-circular disk body is extended to, the other end of the radiating ribs coordinates with the heat-generating pipe heat transfer.
2. heat-generating disc according to claim 1, it is characterised in that the other end of the radiating ribs is passed with heat-generating pipe heat
Cooperation is led, and extends to the edge of the non-circular disk body.
3. heat-generating disc according to claim 1, it is characterised in that the center of the non-circular disk body is provided with installation
Hole, at least one described radiating ribs include:
Cage bar, main ribs extend to the not rounded from the edge of the mounting hole along the length direction of the non-circular disk body
The edge of shape disk body;
Multiple diagonal bars, one end of the diagonal bar is connected to main ribs, and the other end of the diagonal bar, which is tilted, extends to the not rounded
The edge of shape disk body;
Horizontal bar, the horizontal bar extends to the not rounded from the edge of the mounting hole along the width of the non-circular disk body
The edge of shape disk body.
4. heat-generating disc according to claim 3, it is characterised in that
The quantity of main ribs is two, and two main ribs symmetrically are arranged on the non-circular disk body, and/or institute
The quantity for stating horizontal bar is two, and two horizontal bars symmetrically are arranged on the non-circular disk body, and/or the multiple
Diagonal bar is symmetrical arranged on the non-circular disk body on main ribs, and the multiple diagonal bar is closed on the non-circular disk body
It is symmetrical arranged in the horizontal bar.
5. heat-generating disc according to claim 3, it is characterised in that
Angle between the diagonal bar and main ribs is being less than or equal in the range of 70 ° more than or equal to 50 °;And/or
The height of main ribs more than or equal to 1mm be less than or equal to 9mm in the range of, and/or the diagonal bar height more than
It is less than or equal to equal to 4mm in the range of 8mm, the height of the horizontal bar is less than or equal in the range of 7mm more than or equal to 1mm.
6. heat-generating disc according to claim 3, it is characterised in that
Multiple erecting beds are additionally provided with first face of the non-circular disk body, one end of the diagonal bar is connected to main ribs,
The other end of the diagonal bar extends to the edge of the non-circular disk body through the erecting bed and inclination.
7. heat-generating disc according to claim 3, it is characterised in that
It is provided with a ring shape muscle on the edge of the mounting hole, one end of main ribs and the horizontal bar is connected to the annular
Muscle.
8. heat-generating disc according to any one of claim 1 to 7, it is characterised in that
The width of the radiating ribs is less than or equal in the range of 4mm more than or equal to 2mm.
9. heat-generating disc according to any one of claim 1 to 7, it is characterised in that
The heat-generating pipe is arranged on the non-circular disk body in a ring, and the shape of the heat-generating pipe and the noncircular pad
The shape of body is consistent.
10. heat-generating disc according to any one of claim 1 to 7, it is characterised in that
CD lines are provided with second face of the non-circular disk body;And/or
The thickness of the non-circular disk body is less than or equal in the range of 6mm more than or equal to 3mm;And/or
The heat-generating pipe, the radiating ribs are integral type structure with the non-circular disk body.
11. a kind of cooking apparatus, it is characterised in that including the heat-generating disc as any one of claim 1 to 10.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720212294.3U CN206620313U (en) | 2017-03-06 | 2017-03-06 | Heat-generating disc and cooking apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720212294.3U CN206620313U (en) | 2017-03-06 | 2017-03-06 | Heat-generating disc and cooking apparatus |
Publications (1)
Publication Number | Publication Date |
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CN206620313U true CN206620313U (en) | 2017-11-07 |
Family
ID=60231790
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201720212294.3U Active CN206620313U (en) | 2017-03-06 | 2017-03-06 | Heat-generating disc and cooking apparatus |
Country Status (1)
Country | Link |
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CN (1) | CN206620313U (en) |
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2017
- 2017-03-06 CN CN201720212294.3U patent/CN206620313U/en active Active
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