CN209733425U - Heat preservation pot and rice cooker - Google Patents
Heat preservation pot and rice cooker Download PDFInfo
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- CN209733425U CN209733425U CN201822069660.1U CN201822069660U CN209733425U CN 209733425 U CN209733425 U CN 209733425U CN 201822069660 U CN201822069660 U CN 201822069660U CN 209733425 U CN209733425 U CN 209733425U
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Abstract
The utility model provides a heat preservation pot, including the vessel, the vessel includes the diapire and follows the lateral wall that the diapire upwards extends, arc transition portion has between diapire and the lateral wall, just diapire and lateral wall all include inlayer pot wall and outer pot wall, inlayer pot wall with confined negative pressure heat preservation chamber has between the outer pot wall, the ratio of the diapire diameter of outer pot wall and the maximum diameter of outer pot wall is between 1/4 to 3/4, the arc transition portion of outer pot wall is less than the 1/2 of outer pot wall overall height at the projection height of vertical direction. The utility model discloses a length and the radian of control arc transition portion for this heat preservation pot has fine bearing capacity when keeping the large capacity. The utility model also provides a rice cooker, including steam generator and inner bag, the steam that steam generator produced lets in give in the heating clearance edible material in the inner bag heats.
Description
Technical Field
The utility model belongs to the technical field of kitchen appliances, especially, relate to a be applied to cooking utensil's heat preservation pot and rice cooker.
Background
In some cooking appliances, the inner container is insulated by the negative pressure insulation pot, so that the heat loss of the inner container during cooking is reduced. The negative pressure heat preservation pot generally comprises an inner pot wall and an outer pot wall, a closed negative pressure heat preservation cavity is arranged between the inner pot wall and the outer pot wall, and during manufacturing, gas in the negative pressure heat preservation cavity is pumped out, so that the negative pressure heat preservation cavity is approximately vacuum, vacuum heat insulation is formed, the heat insulation effect is good, and the effect of preventing heat loss of the inner pot is effectively achieved.
In view of the vacuum structure in the negative pressure heat-preserving pot, the inner pot wall and the outer pot wall of the negative pressure heat-preserving pot are both subjected to atmospheric pressure and are easy to dent under the action of the atmospheric pressure. Tests show that the arc-shaped transition part between the side wall and the bottom wall of the outer pot wall of the negative pressure heat preservation pot has the weakest pressure resistance and is most prone to collapse. The prior art generally improves the structural strength of the outer pot wall in two ways. The first one is that the thickness through thickening outer pot wall improves the structural strength of outer pot wall especially arc transition department, however this solution has increased the quantity of steel on the one hand, has improved the manufacturing cost of negative pressure heat preservation pot, and on the other hand also by a relatively large margin improved the self weight of negative pressure heat preservation pot, user's use experience is not good. The second is to reduce the angle in arc transition portion and the vertical direction to reduce the vertical pressure that outer pot wall arc transition portion department received, however adopt this kind of scheme, the length of the straight wall end of heat preservation pot lateral wall reduces, and the internal capacity of heat preservation pot has reduced a lot, is unfavorable for making large capacity inner bag.
SUMMERY OF THE UTILITY MODEL
The utility model aims at solving the problems in the prior art and providing the heat preservation pot with good structural strength, light weight and large capacity.
The purpose of the utility model can be realized by the following technical proposal:
The utility model provides a heat preservation pot, includes container body, container body includes the diapire and follows the lateral wall that the diapire upwards extends, arc transition portion has between diapire and the lateral wall, just diapire and lateral wall all include inlayer pot wall and outer pot wall, inlayer pot wall with closed negative pressure heat preservation chamber has between the outer pot wall, the ratio of the diapire diameter of outer pot wall and the maximum diameter of outer pot wall is between 1/4 to 3/4, the arc transition portion of outer pot wall is less than 1/2 of outer pot wall overall height in the projection height of vertical direction.
Preferably, the bottom wall of the outer pot wall protrudes outwards to form a bottom platform.
preferably, a transition section is arranged between the bottom platform and the arc transition part of the outer pot wall.
Preferably, the transition section is a bevel or a curved edge.
Preferably, the included angle between the inclined edge or the arc edge and the vertical direction is smaller than the included angle between the arc transition part of the outer pot wall and the vertical direction.
Preferably, the middle part of the bottom wall of the inner pot wall protrudes inwards to form a positioning part.
Preferably, the interval between the bottom wall of the outer pot wall and the bottom wall of the inner pot wall is less than 4 mm.
Preferably, the thickness of the inner pot wall is a, a is between 0.5mm and 1mm, the thickness of the outer pot wall is b, and b is between 0.6mm and 1 mm.
Preferably, the heat preservation pot is made of stainless steel.
the utility model also provides a rice cooker, including steam generator and inner bag, the inner bag is installed and is wantonly at above-mentioned technical scheme the heat preservation in just the inner bag with heating clearance has between the heat preservation pot inner layer pot wall, the steam that steam generator produced lets in give in the heating clearance edible material in the inner bag heats.
Adopt above-mentioned scheme, the utility model discloses following technical advantage has at least:
1. The utility model provides a heat preservation pot, the ratio of the diameter of outer diapire and the maximum diameter of outer pot wall is between 1/4 to 3/4, and the arc transition portion of outer pot wall is highly less than 1/2 of outer pot wall overall height in the ascending projection of vertical side. When the diameter of the outer pot wall accounts for 1/4 to 3/4 of the bottom wall of the outer pot wall, the projection height of the arc-shaped transition part of the outer pot wall in the vertical direction is smaller than 1/2 of the overall height of the outer pot wall, the overall capacity of the heat preservation pot is large, and meanwhile, the included angle between the arc-shaped transition part of the outer pot wall and the vertical direction is not too large, so that the bearing capacity between the arc-shaped transition part of the outer pot wall and the bottom wall of the outer pot wall is good, and the pot is not easy to collapse due to the action of the outer atmospheric pressure.
2. The outside arch of diapire of outer pot wall is formed with the bottom platform, the changeover portion that has arc limit or hypotenuse formation between bottom platform and the outer pot wall arc transition portion, this changeover portion is less than outer pot wall arc transition portion and the ascending contained angle of vertical side with the ascending contained angle of vertical side, thus, pass through the changeover portion and pass through, the structural strength and the bearing capacity of junction between outer pot wall diapire and the arc transition portion have been improved, the problem of preventing that outer pot wall diapire and arc transition portion department from collapsing easily has effectively been played.
Drawings
Fig. 1 is a schematic diagram of the whole scale of the present invention.
Fig. 2 is the overall sectional structure diagram of the present invention.
Fig. 3 is an enlarged view of a portion a in fig. 2.
Fig. 4 is an exploded view of the arc transition part of the outer pot wall of the utility model under atmospheric pressure.
Fig. 5 is a schematic view of a rice cooker provided by the present invention.
Fig. 6 is a sectional view of the heat preservation pot and the inner container.
In the figure, 10, an outer pot wall; 20. a negative pressure heat preservation cavity; 30. an inner pot wall; 40. an arc-shaped transition portion; 50. a bottom platform; 60. a positioning part; 71. a heat preservation pot; 72. a steam generating device; 80. a transition section; 90. an inner container.
Detailed Description
The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.
As shown in fig. 1 to 4, the utility model provides a thermal insulation pot for the inner container 90 of the cooking utensil is insulated, and the heat loss of the inner container 90 is reduced during cooking. This heat preservation pot includes container body, container body includes lateral wall and diapire, arc transition portion 40 has between lateral wall and the diapire, lateral wall and diapire all have inlayer pot wall 30 and outer pot wall 10, have the confined heat preservation chamber between inlayer pot wall 30 and the outer pot wall 10, the intracavity portion in heat preservation chamber is similar vacuum to form one deck vacuum thermal insulation layer between inlayer pot wall 30 and outer pot wall 10, improve the heat preservation effect of heat preservation pot. However, in the thermal insulation pot, the gas pressure at two sides of the inner pot wall 30 and the outer pot wall 10 of the thermal insulation pot are different, and the outer atmospheric pressure extrudes the inner pot wall 30 and the outer pot wall 10, so that the inner pot wall 30 and the outer pot wall 10 need to have better structural strength to prevent the inner pot wall 30 and the outer pot wall 10 from collapsing under the action of atmospheric pressure.
In the prior art, the thicknesses of the inner pot wall 30 and the outer pot wall 10 are usually increased to improve the structural strength of the inner pot wall 30 and the outer pot wall 10 and prevent the inner pot wall 30 and the outer pot wall 10 from collapsing under the action of atmospheric pressure. However, the thickening of the inner pot wall 30 and the outer pot wall 10 means that more steel is needed when the heat preservation pot is manufactured, and the weight of the heat preservation pot is greatly increased.
In view of the structure of the thermal insulation pot, the pressure resistance at the arc-shaped transition portion 40 of the outer pot wall 10 is the worst, especially at the joint between the arc-shaped transition portion 40 and the bottom wall, because the bottom wall of the outer pot wall 10 is a plane, and the joint between the outer pot wall 10 and the bottom wall is approximately a plane, and when the joint is subjected to the external atmospheric pressure, the joint is difficult to be offset by two sides of the pot wall, and the force applied to the vertical pot wall is the largest.
The joint of the arc transition part 40 and the bottom wall is analyzed by atmospheric pressure, as shown in fig. 4, and particularly, referring to fig. 4, fig. 4 shows the stress condition of the joint of the arc transition part 40 and the bottom wall of the outer pot wall 10 under the external atmospheric condition. The pressure of the external atmospheric pressure P points to the center of the arc-shaped transition part 40, and the external atmospheric pressure P is decomposed in the horizontal direction and the vertical direction, wherein the component force F1 in the horizontal direction is counteracted by the bottom wall of the outer pot wall 10, and the component force F2 in the vertical direction directly causes the collapse of the joint. From the above figure, as the angle α between the arc-shaped transition portion 40 and the vertical direction is smaller, the component force F2 in the vertical direction at the joint is smaller, and the component force F1 in the horizontal direction is larger, which means that the pressure-bearing capacity of the joint is larger. Therefore, the pressure bearing capacity of the joint, namely the anti-collapse performance of the heat preservation pot, can be effectively improved by reducing the included angle alpha between the arc-shaped transition part 40 and the vertical direction.
However, when the included angle α between the arc transition portion 40 and the vertical direction is small and the height of the thermal insulation pot is constant, the capacity of the thermal insulation pot is small, and it is difficult to meet the use requirement of the user.
As shown in fig. 1, in the present invention, the ratio of the bottom wall diameter H1 of the outer pot wall 10 to the maximum diameter H2 of the outer pot wall 10 is designed to be 1 to 4 to 3 to 4, and the ratio of the projection height L1 of the arc-shaped transition portion 40 of the outer pot wall 10 in the vertical direction to the overall height L2 of the outer pot wall 10 is designed to be less than 1 to 2. The heat preservation pot has small capacity loss due to the arc transition part 40, and meanwhile, the included angle alpha between the arc transition part 40 and the vertical direction is not too small, so that the anti-collapse requirement can be met.
Further, the bottom wall of the outer pot wall 10 protrudes outward to form a bottom platform 50, the bottom platform 50 is not in the same horizontal plane with the bottom end of the arc-shaped transition portion 40, and a height difference exists between the bottom platform 50 and the arc-shaped transition portion 40. The utility model discloses a set up changeover portion 80 between bottom platform 50 and arc transition portion 40 and connect bottom platform 50 and arc transition portion 40, so, outer pot wall 10 receives the weakest part of atmospheric pressure in changeover portion 80 department, is convenient for adopt the structure that changes changeover portion 80 to improve the whole compressive capacity of outer pot wall 10.
In some embodiments, the transition section 80 may be a curved edge. In other embodiments, the transition section 80 may be a beveled edge. Referring to fig. 3, in the present invention, no matter the transition section 80 is an arc edge or a bevel edge, the included angle β between the transition section 80 and the vertical direction is smaller than the included angle α between the arc transition section 80 and the vertical direction, so that the transition section 80 has better pressure resistance than the arc transition portion 40.
The utility model discloses a better changeover portion 80 of compressive capacity comes the transition to connect outer pot wall 10 arc transition portion 40 and outer pot wall 10 diapire, under the condition that does not change arc transition portion 40, has further improved the holistic compressive capacity of heat preservation pot, especially the compressive capacity between outer pot wall 10 arc transition portion 40 and outer pot wall 10 diapire, has guaranteed this heat preservation pot capacious and the good advantage of compressive capacity.
The utility model discloses in, there is negative pressure heat preservation chamber 20 inside the heat preservation pot, the inlayer pot wall 30 and the outer pot wall 10 of heat preservation pot all receive external atmospheric pressure, because inlayer pot wall 30 and outer pot wall 10 atress direction are different, the external atmospheric pressure that outer pot wall 10 received makes outer pot wall 10 inwards extrude, the external atmospheric pressure that inlayer pot wall 30 received makes inlayer pot wall 30 outwards expand, and is obvious, the compressive capacity of inlayer pot wall 30 is superior to the compressive capacity of outer pot wall 10.
In order to further reduce the structural strength of the heat preservation pot simultaneously in order to guarantee the whole weight of the heat preservation pot, the utility model discloses in, the thickness of outer pot wall 10 is greater than the thickness of inlayer pot wall 30 to make the steel quantity of heat preservation pot minimum, the whole light in weight of heat preservation pot.
Specifically, the thickness of the inner pot wall 30 is between 0.5mm and 1mm, such as 0.5mm, 0.6mm, 0.7mm, 0.8mm, 0.9mm and 1mm, the thickness of the outer pot wall 10 is between 0.6mm and 1.1mm, such as 0.5mm, 0.6mm, 0.7mm, 0.8mm, 0.9mm, 1mm and 1.1mm, when the thickness of the outer pot wall 10 and the thickness of the inner pot wall are in the interval, the whole pressure resistance of the heat preservation pot is strong, the heat preservation pot cannot collapse due to extrusion of external atmospheric pressure, the whole steel consumption is small, and the whole weight of the heat preservation pot is light.
Furthermore, the heat preservation pot is made of stainless steel, the stainless steel is corrosion-resistant and good in ductility, and is suitable for stretch forming, and the manufacturing cost of the heat preservation pot can be effectively reduced.
Further, a positioning part 60 is formed at the middle part of the bottom wall of the inner pot wall 30 protruding inwards. The heat preservation pot is used for heating and preserving heat of the inner container 90, the positioning part 60 is arranged on the bottom wall of the inner pot wall 30, the placement position of the inner container 90 is favorably positioned, and a user can conveniently and accurately install the inner container 90 into the heat preservation pot quickly.
Referring to fig. 5 and 6, the utility model also provides a rice cooker, rice cooker includes steam generator 72 and inner bag 90, and inner bag 90 installs the scheme above in heat preservation pot 71, have the heating clearance between inner bag 90 and the heat preservation pot 71. When the rice cooker works, the steam generated by the steam generating device 72 is introduced into the gap between the inner container 90 and the heat preservation pot 71 to heat the inner container 90. Because the negative pressure heat preservation cavity 20 is arranged in the pot wall of the heat preservation pot 71, the heat preservation effect of the heat preservation pot 71 is good, heat in steam is not easy to be transferred to the outside through the heat preservation pot 71, the utilization rate of the heat in the steam is high, the overall energy consumption of the rice cooker is low, and the cooking time is short.
The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.
Claims (10)
1. The utility model provides a heat preservation pot, includes container body, container body includes the diapire and follows the lateral wall that the diapire upwards extends, arc transition portion has between diapire and the lateral wall, just diapire and lateral wall all include inlayer pot wall and outer pot wall, inlayer pot wall with closed negative pressure heat preservation chamber has between the outer pot wall, its characterized in that, the ratio of the diapire diameter of outer pot wall and the maximum diameter of outer pot wall is 1/4 to 3/4 between, the arc transition portion of outer pot wall is less than 1/2 of outer pot wall overall height in the projection height of vertical direction.
2. The insulating pan of claim 1, wherein the bottom wall of the outer pan wall is outwardly convex to form a bottom platform.
3. The insulating pan of claim 2, wherein a transition section is provided between the bottom platform and the arcuate transition portion of the outer pan wall.
4. An insulated pot as claimed in claim 3, wherein the transition section is a bevelled or curved edge.
5. An insulating pan as claimed in claim 4, wherein the angle between the inclined or curved edge and the vertical direction is smaller than the angle between the curved transition portion of the outer pan wall and the vertical direction.
6. The heat-insulating pot of claim 1, wherein the middle part of the bottom wall of the inner pot wall is protruded inwards to form a positioning part.
7. An insulated pan as claimed in claim 1, wherein the spacing between the bottom wall of the outer pan wall and the bottom wall of the inner pan wall is less than 4 mm.
8. The heat-insulating pot of claim 1, wherein the thickness of the inner pot wall is a, a is between 0.5mm and 1mm, and the thickness of the outer pot wall is b, b is between 0.6mm and 1 mm.
9. The heat-insulating pot of claim 1, wherein the heat-insulating pot is made of stainless steel.
10. A rice cooker, comprising a steam generating device and an inner container, characterized in that the inner container is arranged in the heat preservation pot of any claim 1 to 9, a heating gap is arranged between the inner container and the inner wall of the heat preservation pot, and the steam generated by the steam generating device is introduced into the heating gap to heat food materials in the inner container.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822069660.1U CN209733425U (en) | 2018-12-10 | 2018-12-10 | Heat preservation pot and rice cooker |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822069660.1U CN209733425U (en) | 2018-12-10 | 2018-12-10 | Heat preservation pot and rice cooker |
Publications (1)
Publication Number | Publication Date |
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CN209733425U true CN209733425U (en) | 2019-12-06 |
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CN201822069660.1U Active CN209733425U (en) | 2018-12-10 | 2018-12-10 | Heat preservation pot and rice cooker |
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CN (1) | CN209733425U (en) |
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2018
- 2018-12-10 CN CN201822069660.1U patent/CN209733425U/en active Active
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Effective date of registration: 20230627 Address after: Building 2, No. 52, 22nd Street, Baiyang Street, Qiantang New District, Hangzhou City, Zhejiang Province, 310000 Patentee after: Hangzhou Jiuchuang Home Appliances Co.,Ltd. Address before: No. 999, Mei Li Road, Huaiyin District, Ji'nan, Shandong Patentee before: JOYOUNG Co.,Ltd. |