CN219783209U - Split type kettle of decocting medicinal herbs - Google Patents

Abstract

The utility model discloses a split type medicine decocting pot, which comprises a pot body and a base, wherein the pot body is provided with a pot nozzle and a handle, the base is provided with a heating element, the pot body is arranged on the heating element in a removable way, the bottom wall of the pot body is provided with a positioning convex rib protruding downwards, the positioning convex rib surrounds a heating area on the bottom wall of the pot body, the heating element is provided with a heat transfer surface and an avoidance area surrounding the periphery of the heat transfer surface, the pot body is arranged in the state of the heating element, the heating area corresponds to the heat transfer surface, and the positioning convex rib is positioned in the avoidance area. The positioning convex rib surrounds a heating area on the bottom wall of the kettle body, and in the heating process, the heat of the heat transfer surface is transferred to the heating area. In the processing technology of the kettle body, the bottom of the kettle body does not need to be ground flat, one processing procedure is reduced, and the manufacturing cost is lower. Structurally, the kettle body can be supported due to the existence of the positioning convex ribs, the positioning convex ribs can be contacted with the tabletop and the like at first, so that the impact on the bottom wall of the kettle body is reduced, and the risk of hidden injury caused by the kettle body is reduced.

Description

Split type kettle of decocting medicinal herbs

Technical Field

The utility model belongs to the technical field of household appliances, and particularly relates to a split type medicine decocting pot.

Background

The medicine decocting pot is a small electric appliance which is generated in recent years and adopts a heating device to realize full-automatic medicine decoction. Traditional medicine decocting operation is realized through modern design, and medicinal materials are effectively extracted. The medicine decocting pot generally comprises a medicine decocting pot and a base, the medicine decocting pot on the market is generally divided into an integral type and a split type, the integral type is a structure that the medicine decocting pot and the base are not detachable, and the medicine decocting pot of the split type medicine decocting pot can be taken down from the base, so that the medicine decocting pot is lighter and convenient for a user to perform medicine administration, medicine taking and other operations.

The split type medicine decocting pot on the market at present comprises a medicine pot made of ceramic materials and a base provided with a heating plate, wherein the bottom of the medicine pot is heated through the heating plate, and medicinal materials or food materials are decocted and cooked through heat conduction. The ceramic medicine pot can be upwards sunken in the process of high-temperature firing when the bottom is formed, so that the ceramic medicine pot cannot be well attached to a heating plate, and the heat transfer efficiency is low. In order to make the bottom of the medicine kettle better fit with the heating plate and better heat transfer, the bottom grinding operation is often carried out after the ceramic medicine kettle is fired and molded. However, after the process, certain hidden injury can be caused in the medicine kettle, and when the medicine kettle is used by a subsequent consumer, improper operation or collision or dry burning can cause the defect of the medicine kettle after being ground flat to be amplified slowly, and finally the medicine kettle is broken.

In addition, the process of grinding is added after the ceramic medicine pot is formed, the cost is increased, the weight of the medicine pot is increased after the medicine pot is provided with food materials or medicinal materials and water is added, and the bottom plane of the medicine pot is in contact with any plane in the process of end release, so that the risk of impact fracture exists.

Disclosure of Invention

The utility model provides a split type medicine decocting pot, which aims to solve the problems that the existing medicine decocting pot is high in processing cost, low in strength of a bottom plane and easy to damage.

The technical scheme adopted by the utility model is as follows:

the utility model provides a split type kettle of decocting medicinal herbs, includes kettle body and base, the kettle body has huzui and handle, the base is provided with the piece that generates heat, the kettle body is arranged in with taking the place the piece that generates heat, the diapire of kettle body is provided with the protruding muscle of orientation below convex, the protruding muscle of orientation is in the diapire of kettle body encloses into the heating area, the piece that generates heat have heat transfer surface and encircle in the area of dodging of heat transfer surface periphery, the kettle body is arranged in under the state of the piece that generates heat, the heating area corresponds heat transfer surface, the protruding muscle of orientation is located dodge the area.

The split type medicine decocting pot of the utility model has the following additional technical characteristics:

the heating element is provided with a bearing surface, the bearing surface surrounds the periphery of the heat transfer surface, and the height of the position where the bearing surface is located is lower than that of the position where the heat transfer surface is located, so that the avoidance area is formed.

The height difference between the bearing surface and the heat transfer surface is smaller than or equal to the height of the positioning convex rib, so that the bearing surface supports the positioning convex rib in a propping mode.

The diameter of the heating piece is smaller than the inner diameter of the positioning convex rib, the avoiding area is located on the periphery of the heating piece, the kettle body is placed in the heating piece, and the positioning convex rib surrounds the periphery of the heating piece.

The heat transfer surface is abutted with the heating area and used for supporting the kettle body.

The kettle body is a structure made of purple clay materials.

The side wall of the kettle body extends obliquely, so that the diameter of the kettle body is gradually increased from top to bottom.

The kettle is characterized in that a transition cambered surface is arranged between the side wall and the bottom wall of the kettle body, the base is provided with a containing cavity for containing the heating element, and the side wall of the containing cavity is provided with a matched cambered surface which is matched with the transition cambered surface in shape.

The base is provided with the heat insulating part, the heat insulating part is located the below of piece that generates heat, the heat insulating part corresponds the edge position department that generates heat is provided with gathers hot cambered surface, gather hot cambered surface orientation the projection of kettle body is located the transition cambered surface.

At least a partial area of the heat transfer surface is provided with heat transfer grooves.

By adopting the technical scheme, the utility model has the following beneficial effects:

1. the bottom wall of the kettle body is provided with the positioning convex ribs so as to form a heating area on the bottom wall of the kettle body, and in the heating process, the heating area corresponds to the heat transfer surface of the heating element, so that the heat of the heat transfer surface is transferred to the heating area. In the processing technology of the kettle body, the bottom of the kettle body does not need to be ground flat, one processing procedure is reduced compared with the existing processing technology of the medicine kettle, the manufacturing cost is lower, and the risk that the bottom wall of the kettle body is subjected to hidden injury in the grinding process is reduced. Structurally, due to the existence of the positioning convex ribs, the kettle body can be supported, when the kettle body is still in a thermal state, a user places the kettle body on a plane structure such as a heating piece or a tabletop, and the like, due to the fact that the positioning convex ribs are lower than the heating area, the positioning convex ribs can be firstly contacted with the tabletop, and the like, so that the impact on the bottom wall of the kettle body is reduced, the risk of hidden injury caused by the kettle body is reduced, and the occurrence of damage conditions is reduced.

In addition, the location protruding muscle can with the heat transfer surface cooperation of piece generates heat, the kettle body is placed under the state of base, the location protruding encircle with the periphery of heat transfer surface, and then can be to the user is right the place of kettle body plays the suggestion effect, makes the user more convenient, will fast the kettle body is placed in place, has improved the use experience.

2. As a preferable implementation mode of the utility model, the diameter of the heating element is smaller than the inner diameter of the positioning convex rib, the avoiding area is positioned at the periphery of the heating element, the kettle body is arranged in the heating element, and the positioning convex rib surrounds the periphery of the heating element. The area of the heating piece is smaller than that of the heating area, so that the kettle body and the heating piece are more convenient to position, and the whole heating piece and the positioning convex ribs are utilized to position, so that the positioning convex ribs encircle the periphery of the heating piece. And in the heating process, the positioning convex ribs can also play a role of gathering heat of the heating element, the heat of the heating element is retained in the heating area due to the blocking of the positioning convex ribs, the heat of the heating element is prevented from diffusing to the periphery, and then the heat is concentrated to heat the heating area, so that the heat utilization rate is improved, the heat waste is reduced, and the heating efficiency is improved.

3. As a preferred embodiment of the utility model, the heat transfer surface abuts the heating zone for supporting the kettle body. The heat transfer surface with the butt of heating region makes the contact effect of two better, and the laminating degree is higher to make more heat transfer to through contact heat transfer's mode the kettle body, compare in radiant heat transfer's mode, contact heat transfer has higher heat transfer efficiency, and then improves heating efficiency, makes the temperature rise that the kettle body is more quick.

4. As a preferred embodiment of the utility model, a transitional cambered surface is arranged between the side wall and the bottom wall of the kettle body, the base is provided with a containing cavity for containing the heating element, and the side wall of the containing cavity is provided with a matched cambered surface which is matched with the transitional cambered surface in shape. The cooperation cambered surface with transition cambered surface shape adaptation not only can further play the effect of positioning that the kettle body was placed, and the convenience of customers will the kettle body is placed in place, but also makes the base mouth edge is more round and moist, and then reduces the kettle body with the probability that the base took place to collide with, works as the kettle body biasing with when the base contacted, transition cambered surface with cooperation cambered surface contact, the contact of both is softer, and then has reduced the kettle body with the scraping and the collision of base.

5. As a preferable implementation mode of the utility model, the base is provided with a heat insulating piece, the heat insulating piece is positioned below the heating piece, a heat collecting cambered surface is arranged at the edge position of the heat insulating piece corresponding to the heating piece, and the projection of the heat collecting cambered surface towards the kettle body is positioned on the transition cambered surface. The heat insulation piece can collect the heat of the heating piece in the accommodating cavity, so that the heat is concentrated and transferred upwards to the kettle body, and cannot be transferred downwards, parts below the heat insulation piece are in a lower temperature environment, and the service lives of the electric elements and the shell inside the base are prolonged. Meanwhile, the heat collecting cambered surface is used for collecting the heat which is diffused to the periphery by the heating piece, and the transition area of the medicine kettle is heated in a heat radiation mode, and the transition area is far away from the heating piece, so that the heating area is heated in an auxiliary mode by utilizing the radiation mode, the heating uniformity can be improved, the temperature of each area of the kettle body is more approximate, and the heating uniformity of medicinal materials is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a cross-sectional view of the kettle body according to one embodiment of the present utility model;

FIG. 2 is a schematic view of the bottom of the kettle body shown in FIG. 1;

FIG. 3 is a cross-sectional view of the base in one embodiment of the utility model;

FIG. 4 is an enlarged view of area A of FIG. 3;

FIG. 5 is a schematic view of the structure of the base according to an embodiment of the present utility model;

FIG. 6 is a cross-sectional view of the drug-decocting pot according to one embodiment of the present utility model;

FIG. 7 is an enlarged view of region B of FIG. 6;

FIG. 8 is a cross-sectional view of the drug-decocting pot according to another embodiment of the present utility model;

fig. 9 is an enlarged view of region C in fig. 8.

Wherein:

1, a kettle body; 11 handles; 12 spout; 13, positioning convex ribs; 131 heating the area; 14, transitional cambered surfaces;

2, a base; 21 is matched with an arc surface; 22 accommodating chambers;

3, a heating element; 31 a heat transfer surface; 311 heat transfer grooves; 32 avoidance areas; 33 bearing surfaces;

4, a heat insulation member; 41 heat accumulating cambered surface.

Detailed Description

In order to more clearly illustrate the general inventive concept, a detailed description is given below by way of example with reference to the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced in other ways than those described herein, and therefore the scope of the present utility model is not limited to the specific embodiments disclosed below.

In addition, in the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "top", "bottom", "inner", "outer", "circumferential", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; the device can be mechanically connected, electrically connected and communicated; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present utility model, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. In the description of the present specification, the descriptions of the terms "implementation," "embodiment," "one embodiment," "example," or "particular example" and the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

As shown in fig. 1 to 9, a split type medicine decocting pot comprises a pot body 1 and a base 2, wherein the pot body 1 is provided with a pot nozzle 12 and a handle 11, the base 2 is provided with a heating element 3, the pot body 1 is arranged on the heating element 3 in a removable manner, the bottom wall of the pot body 1 is provided with a positioning convex rib 13 protruding downwards, the positioning convex rib 13 surrounds a heating area 131 on the bottom wall of the pot body 1, the heating element 3 is provided with a heat transfer surface 31 and an avoiding area 32 surrounding the periphery of the heat transfer surface 31, the pot body 1 is arranged in the state of the heating element 3, the heating area 131 corresponds to the heat transfer surface 31, and the positioning convex rib 13 is positioned in the avoiding area 32.

Specifically, as shown in fig. 1 and 2, the handle 11 and the spout 12 are disposed at two opposite sides of the kettle body 1, so as to facilitate the user to hold the handle 11 and pour soup.

The bottom wall of the kettle body 1 is provided with the positioning ribs 13, so that a heating area 131 is defined by the bottom wall of the kettle body 1, and in the heating process, the heating area 131 corresponds to the heat transfer surface 31 of the heating element 3, so that the heat of the heat transfer surface 31 is transferred to the heating area 131. In the processing technology of the kettle body 1, the bottom of the kettle body 1 does not need to be ground flat, one processing procedure is reduced compared with the existing medicine kettle processing technology, the manufacturing cost is lower, and the risk that the bottom wall of the kettle body 1 is subjected to hidden injury in the grinding process is reduced.

Structurally, due to the existence of the positioning ribs 13, the positioning ribs 13 can play a supporting role on the kettle body 1, when the kettle body 1 is still in a hot state, a user places the kettle body on a plane structure such as the heating piece 3 or a tabletop, and the like, and due to the fact that the positioning ribs 13 are lower than the heating area 131, the positioning ribs 13 can be firstly contacted with the tabletop, and the like, so that the impact on the bottom wall of the kettle body 1 is reduced, the risk of hidden injury caused by the kettle body 1 is reduced, and the occurrence of damage conditions is reduced.

In addition, the location protruding rib 13 can with the heat transfer surface cooperation of piece 3 generates heat, kettle body 1 is placed under the state of base 2, location protruding 13 encircle with the periphery of heat transfer surface 31, and then can be to the user is right the place of kettle body 1 plays the suggestion effect, makes the user more convenient, will fast kettle body 1 is placed in place, has improved the use experience.

The heat transfer modes of the heat transfer surface 31 and the heating area 131 are not limited, and the heat transfer surface 31 and the heating area 131 can be contacted with each other to transfer the heat of the heat transfer surface 31 to the heating area 131, or a gap is formed between the heating area 131 and the heat transfer surface 31 to transfer the heat of the heat transfer surface 31 to the heating area 131 by radiation.

In addition, the positioning rib 13 may be a complete annular rib encircling the periphery of the heating area 131, and may be a multi-stage discontinuous rib, which is not limited herein.

Preferably, the kettle body 1 is made of purple clay material.

The cost of purple clay material is lower than that of high-temperature ceramic material, the production cost is reduced, and the weight of the kettle body 1 made of purple clay is lighter, so that the use of users is more convenient. Because the bottom wall of the kettle body 1 does not need to be ground in the processing process, the strength of the kettle body made of purple sand is ensured, and the use experience is improved.

It should be noted that, the matching structure of the heat generating element 3 and the positioning rib 13 is not limited in the present utility model, and may be one of the following embodiments:

embodiment one: in this embodiment, as shown in fig. 6 and 7, the heat generating element 3 has a supporting surface 33, the supporting surface 33 surrounds the outer periphery of the heat transfer surface 31, and the supporting surface 33 is located at a position lower than the position of the heat transfer surface 31, so as to form the avoiding area 32.

The heating element 3 is recessed at a position corresponding to the positioning rib 13 to accommodate the positioning rib 13, so that the distance between the heating area 131 and the heat transfer surface 31 is smaller, and the heat transfer efficiency is improved.

As a preferred embodiment, as shown in fig. 7, the supporting surface 33 is an annular plane surrounding the outer periphery of the heat transfer surface 31, and has a height difference from the heat transfer surface 31, so that a space for accommodating the positioning ribs 13 is formed at the outer periphery of the heat transfer surface 31.

As another preferred embodiment, the heat generating element 3 is provided with an annular groove on the outer periphery of the heat transfer surface 31, the inner wall of which constitutes the support surface 33. Further, the inner wall of the annular groove may be designed into an arc surface or an inclined surface, so that the inner wall is more adapted to the shape of the positioning rib 13, and the placement stability of the kettle body 1 is improved.

In this embodiment, the supporting manner of the heating element 3 on the kettle body 1 is not limited, and may be one of the following examples:

example 1: in this embodiment, as shown in fig. 7, the height difference between the bearing surface 33 and the heat transfer surface 31 is smaller than or equal to the height of the positioning ribs 13, so that the bearing surface 33 supports the positioning ribs 13 against.

In this embodiment, the supporting surface 33 supports the positioning ribs 13, so that the heating element 3 supports the kettle body 1. When the height difference between the supporting surface 33 and the heat transfer surface 31 is equal to the height of the positioning ribs 13, the heating area 131 is just contacted with the heat transfer surface 31 when the kettle body 1 is placed on the heating element 3, and when the height difference between the supporting surface 33 and the heat transfer surface 31 is smaller than the height of the positioning ribs 13, a gap is reserved between the heating area 131 and the heat transfer surface 31 when the kettle body 1 is placed on the heating element 3, so that the heating area 131 is prevented from being damaged or broken.

Preferably, the gap between the heat transfer surface 31 and the heating region 131 is controlled to be in the range of 1-3 mm, so as to obtain high heat transfer efficiency.

Example 2: in this embodiment, the height difference between the bearing surface 33 and the heat transfer surface 31 is greater than the height of the positioning ribs 13, so that the heat transfer surface 31 supports the heating region 131 against.

In this embodiment, the heating area 131 is supported by the heat transfer surface 31, so that the heating element 3 supports the kettle body 1, so that the heating area 131 and the heat transfer surface 31 are abutted against each other, the contact effect of the heating area 131 and the heat transfer surface 31 is improved, and the heating area 131 is heated by the heat transfer surface 31 in a contact heat transfer manner, so that the heat transfer efficiency is improved.

Embodiment two: in this embodiment, as shown in fig. 8 and 9, the diameter of the heating element 3 is smaller than the inner diameter of the positioning rib 13, the avoiding area 32 is located at the outer periphery of the heating element 3, the kettle body 1 is placed in the state of the heating element 3, and the positioning rib 13 surrounds the outer periphery of the heating element 3.

The area of the heating element 3 is smaller than that of the heating area 131, so that the kettle body 1 and the heating element 3 are positioned more conveniently, and the whole heating element 3 and the positioning ribs 13 are utilized to position, so that the positioning ribs 13 encircle the periphery of the heating element 3. In addition, in the heating process, the positioning ribs 13 can also gather heat of the heating element 3, the heat of the heating element 3 is retained in the heating area 131 due to the blocking of the positioning ribs 13, the heat of the heating element 3 is prevented from diffusing to the periphery, and then the heat is concentrated to heat the heating area 131, so that the heat utilization rate is improved, the heat waste is reduced, and the heating efficiency is improved.

Further, the edge of the heat generating element 3 may be set to an inclined angle or a rounded angle, so as to further avoid scraping and colliding between the edge of the heat generating element 3 and the positioning rib 13.

Further, as shown in fig. 9, the heat transfer surface 31 abuts against the heating region 131 for supporting the kettle body 1.

The heat transfer surface 31 is abutted to the heating area 131, so that the contact effect of the heat transfer surface and the heating area is better, the bonding degree is higher, more heat is transferred to the kettle body 1 in a contact heat transfer mode, and compared with a radiation heat transfer mode, the contact heat transfer has higher heat transfer efficiency, the heating efficiency is further improved, and the kettle body 1 is enabled to be faster in temperature rise.

As a preferred embodiment of the present utility model, as shown in fig. 1, the sidewall of the kettle body 1 is inclined to extend so that the diameter of the kettle body 1 is gradually increased from top to bottom.

The kettle body 1 is of a structure with a small upper part and a large lower part, so that the gravity center of the kettle body 1 is reduced, the stability of placing the kettle body 1 is improved, the contact area between the bottom wall of the kettle body 1 and the heating element 3 can be increased, and the heating efficiency is further improved.

In a preferred embodiment, as shown in fig. 1 and 3, a transitional cambered surface 14 is arranged between the side wall and the bottom wall of the kettle body 1, the base 2 is provided with a containing cavity 22 for containing the heating element 3, and the side wall of the containing cavity 22 is provided with a matched cambered surface 21 which is matched with the transitional cambered surface 14 in shape.

The cooperation cambered surface 21 with the adaptation of transition cambered surface 14 shape not only can further play the effect of positioning that the kettle body 1 was placed, and the convenience of customers will kettle body 1 is placed in place, still makes base 2 mouthful edge is more round and smooth moreover, and then reduces kettle body 1 with the probability that base 2 takes place to collide with, works as kettle body 1 biasing with when base 2 contacts, transition cambered surface 14 with cooperation cambered surface 21 contacts, and the contact of both is softer, and then has reduced kettle body 1 with scraping and the collision of base 2.

Further, as shown in fig. 3, the base 2 is provided with a heat insulating member 4, the heat insulating member 4 is located below the heating member 3, a heat collecting cambered surface 41 is disposed at an edge position of the heat insulating member 4 corresponding to the heating member 3, and a projection of the heat collecting cambered surface 41 toward the kettle body 1 is located on the transitional cambered surface 14.

The heat insulation piece 4 can collect the heat of the heating piece 3 in the accommodating cavity 22, so that the heat is concentrated and transferred upwards to the kettle body 1, and cannot be transferred downwards, parts below the kettle body are in a lower temperature environment, and the service lives of electric elements and shells inside the base 2 are prolonged.

It can be understood that the transition area between the bottom wall and the side wall of the kettle body 1 is far away from the heating element 3, and has a larger arc corner at the transition area, so that a dead angle of heat is easy to generate at the transition area, and the temperature of the transition area is low, so that the medicinal material in the kettle body 1 is heated unevenly.

In this embodiment, the heat collecting cambered surface 41 collects the heat that is diffused to the periphery of the heating element 3, heats the transition region of the kettle body 1 by means of heat radiation, and utilizes the radiation to heat the region in an auxiliary manner, so that the heating uniformity can be improved, the temperature of each region of the kettle body 1 is closer, and the heating uniformity of medicinal materials is improved.

As a preferred embodiment, as shown in fig. 4, at least a partial area of the heat transfer surface 31 is provided with heat transfer grooves 311.

The heat transfer groove 311 is arranged such that when the kettle body 1 contacts the heating element 3, a partial area of the heating area 131 contacts the heat transfer surface 31, and a gap is formed between the area corresponding to the heat transfer groove 311 and the kettle body 1. Therefore, during the heating process, part of the heat generating element 3 is transferred to the heating region 131 by means of contact heat transfer, and part of the heat heats the heating region 131 by means of radiation heat transfer in the heat transfer groove 311. The contact heat transfer has higher heat transfer efficiency, the radiation heat transfer has better heating uniformity, and the heating uniformity can be improved on the basis of ensuring the heat transfer efficiency by combining the contact heat transfer mode and the radiation heat transfer mode.

Preferably, the area of the contact area between the heating area 131 and the heat transfer surface 31 is larger than the area of the heat transfer groove 311, so that the heat transfer mode between the heat transfer surface 31 and the kettle body 1 is mainly contact heat transfer, and radiation heat transfer is auxiliary.

The utility model can be realized by adopting or referring to the prior art at the places which are not described in the utility model.

In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments.

The foregoing is merely exemplary of the present utility model and is not intended to limit the present utility model. Various modifications and variations of the present utility model will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are to be included in the scope of the claims of the present utility model.

Claims (10)

1. The split type medicine decocting pot comprises a pot body and a base, wherein the pot body is provided with a pot nozzle and a handle, the base is provided with a heating piece, the pot body is arranged on the heating piece in a removable way, and is characterized in that,

the kettle comprises a kettle body, and is characterized in that a positioning convex rib protruding downwards is arranged on the bottom wall of the kettle body, a heating area is formed by surrounding the bottom wall of the kettle body, a heating element is provided with a heat transfer surface and an avoidance area surrounding the periphery of the heat transfer surface, the kettle body is arranged in the state of the heating element, the heating area corresponds to the heat transfer surface, and the positioning convex rib is positioned in the avoidance area.

2. The split pot as claimed in claim 1, wherein,

the heating element is provided with a bearing surface, the bearing surface surrounds the periphery of the heat transfer surface, and the height of the position where the bearing surface is located is lower than that of the position where the heat transfer surface is located, so that the avoidance area is formed.

3. The split pot for decocting medicinal herbs according to claim 2, wherein,

the height difference between the bearing surface and the heat transfer surface is smaller than or equal to the height of the positioning convex rib, so that the bearing surface supports the positioning convex rib in a propping mode.

4. The split pot as claimed in claim 1, wherein,

the diameter of the heating piece is smaller than the inner diameter of the positioning convex rib, the avoiding area is located on the periphery of the heating piece, the kettle body is placed in the heating piece, and the positioning convex rib surrounds the periphery of the heating piece.

5. The split pot as claimed in claim 2 or 4, wherein,

the heat transfer surface is abutted with the heating area and used for supporting the kettle body.

6. The split pot as claimed in claim 1, wherein,

the kettle body is a structure made of purple clay materials.

7. The split pot as claimed in claim 1, wherein,

the side wall of the kettle body extends obliquely, so that the diameter of the kettle body is gradually increased from top to bottom.

8. The split pot as claimed in claim 1, wherein,

the kettle is characterized in that a transition cambered surface is arranged between the side wall and the bottom wall of the kettle body, the base is provided with a containing cavity for containing the heating element, and the side wall of the containing cavity is provided with a matched cambered surface which is matched with the transition cambered surface in shape.

9. The split pot as claimed in claim 8, wherein,

the base is provided with the heat insulating part, the heat insulating part is located the below of piece that generates heat, the heat insulating part corresponds the edge position department that generates heat is provided with gathers hot cambered surface, gather hot cambered surface orientation the projection of kettle body is located the transition cambered surface.

10. The split pot as claimed in claim 1, wherein,

at least a partial area of the heat transfer surface is provided with heat transfer grooves.