CN213757827U - Heating structure and oven - Google Patents

Abstract

The utility model provides a heating structure and oven. The heat generating structure includes: a furnace assembly; the heating component is arranged on the outer side of the furnace pipe assembly; a conduction component arranged between the furnace assembly and the heat generating component; the mounting bracket is connected with the furnace pipe assembly and is pressed on the heating component. The heating structure of the utility model solves the problem that heating components of the oven in the prior art generate heat and conduct slowly.

Description

Heating structure and oven

Technical Field

The utility model relates to a cooking utensil particularly, relates to a heating structure and oven.

Background

The steaming and baking integrated machine generates heat through a heating pipe or a heating disc to generate high temperature in the sealed furnace pipe so as to heat and make food.

The prior art provides an oven, the heating tube is arranged at the bottom of the outer side of a furnace pipe, the heat transfer efficiency is low, and the temperature of the whole oven body is slowly increased; and the installation is complicated, and the production efficiency is low.

Still provide an oven among the prior art, this oven is direct to be put into the stove courage with bottom heating tube, and after the processing food, the oven is both difficult to wash, and is pleasing to the eye again, and is unsafe moreover, and user experience is poor.

SUMMERY OF THE UTILITY MODEL

The main object of the utility model is to provide a heating structure and oven to solve the slow problem of the heat transfer that generates heat of the oven among the prior art.

In order to achieve the above object, according to an aspect of the present invention, there is provided a heat generating structure including: a furnace assembly; the heating component is arranged on the outer side of the furnace pipe assembly; a conduction component arranged between the furnace assembly and the heat generating component; the mounting bracket is connected with the furnace pipe assembly and is pressed on the heating component.

Further, the furnace assembly comprises: the furnace lining coaming, at least part of the conducting component is jointed with the furnace lining coaming; the front panel is connected with the furnace lining coaming; the back plate is connected with the furnace lining coaming, and the back plate and the front panel are arranged on two opposite sides of the furnace lining coaming; the mounting bracket is connected with the back plate and the front panel.

Furthermore, the mounting bracket is of a rod-shaped structure, the rod-shaped structure is provided with a first connecting end and a second connecting end which are arranged oppositely, the backboard is provided with a first mounting hole and a second mounting hole, the first connecting end is inserted into the first mounting hole, and the second connecting end is inserted into the second mounting hole.

Further, the rod-like structure comprises a first rod segment; the front panel is provided with a supporting part which is positioned below the first rod section so as to bear the first rod section.

Further, the supporting part is provided with a supporting groove which is arranged along the extending direction of the first rod section, and at least part of the first rod section is positioned in the supporting groove.

Furthermore, the conduction component comprises a conduction plate and a conduction connection plate connected with the conduction plate, and the conduction plate is attached to the furnace lining coaming; the conduction connecting plate is arranged around the conduction plate, and the rod-shaped structure is clamped with the conduction connecting plate.

Furthermore, the rod-shaped structure further comprises a second rod section, one end of the second rod section is connected with the first rod section, the other end of the second rod section forms a first connecting end, and the second rod section is connected with the conduction connecting plate in a clamping mode.

Furthermore, the conduction connecting plate comprises a first plate section and a second plate section connected with the first plate section, the first plate section and the second plate section are arranged at a first preset included angle, a first clamping groove is formed in the first plate section, and a second clamping groove is formed in the second plate section; the second rod section comprises a first clamping rod section and a second clamping rod section, one end of the first clamping rod section forms a first connecting end, the other end of the first clamping rod section is connected with the second clamping rod section, the first clamping rod section is clamped in the first clamping groove, and the second clamping rod section is clamped in the second clamping groove.

Furthermore, the second rod section also comprises a first transitional connecting rod section, one end of the first transitional connecting rod section is connected with one end, far away from the first clamping rod section, of the second clamping rod section, and the other end of the first transitional connecting rod section is connected with the first rod section; wherein, the first transition connecting rod section and the first clamping rod section are arranged on two opposite sides of the second plate section.

Furthermore, rod-shaped structure still includes the third pole section, and the one end that the second pole section was kept away from to the first pole section of third pole section are connected, and the other end of third pole section forms the second link, and the third pole section and conduction connecting plate joint.

Furthermore, the conduction connecting plate comprises a third plate section, the third plate section is connected with one end, far away from the second plate section, of the first plate section, the third plate section and the first plate section are arranged in a second preset included angle, a third clamping groove is formed in the first plate section, and a fourth clamping groove is formed in the third plate section; the third rod section comprises a third clamping rod section and a fourth clamping rod section, one end of the third clamping rod section forms a second connecting end, the other end of the third clamping rod section is connected with the fourth clamping rod section, the third clamping rod section is clamped in the third clamping groove, and the fourth clamping rod section is clamped in the fourth clamping groove; the third rod section also comprises a second transitional connecting rod section, one end of the second transitional connecting rod section is connected with one end of the fourth clamping rod section, which is far away from the third clamping rod section, and the other end of the second transitional connecting rod section is connected with the first rod section; the second transition connecting rod section and the third clamping rod section are arranged on two opposite sides of the third plate section.

Furthermore, a diversion trench is arranged on the furnace lining coaming, the conduction part is arranged in the diversion trench, and at least part of the conduction part is attached to the bottom of the diversion trench.

Further, the heating component, the conducting component and the mounting bracket are all arranged below the furnace lining.

According to another aspect of the present invention, there is provided an oven, comprising a heating structure, wherein the heating structure is the above-mentioned heating structure.

The heating structure of the utility model comprises a furnace pipe component, a heating component, a conducting component and a mounting bracket, wherein the heating component of the heating structure is arranged outside the furnace pipe component, the conducting component is also arranged outside the furnace pipe component and between the furnace pipe component and the heating component, and the arrangement enables the heat of the heating component to be rapidly conducted to the inside of the furnace pipe component and the furnace pipe component through the conducting component, thereby improving the heating conduction speed of the heating component; and, press the installing support and establish on the part that generates heat to establish the conduction part clamp between the part that generates heat and stove courage subassembly, make the conduction part all fully contact with the stove courage subassembly with the part that generates heat, further accelerated heat transfer efficiency, and make the stove courage subassembly be heated evenly, the yellow problem of stove courage subassembly can not appear. In addition, the installation support also enables the heating component and the conducting component to be convenient to disassemble, assemble and maintain.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 shows a first exploded view of an embodiment of a heating structure according to the present invention;

fig. 2 shows a schematic structural view of an embodiment of a heating structure according to the present invention;

fig. 3 shows a second exploded view of an embodiment of a heating structure according to the present invention;

fig. 4 shows a third exploded view of an embodiment of a heating structure according to the present invention;

fig. 5 shows a side view of an embodiment of a heat generating structure according to the present invention;

fig. 6 shows a partially enlarged view of the heat generating structure in fig. 5 at a.

Wherein the figures include the following reference numerals:

10. a furnace assembly; 11. a furnace lining coaming; 111. a diversion trench; 12. a front panel; 121. a support portion; 122. a support groove; 13. a back plate; 131. a first mounting hole; 132. a second mounting hole; 20. a heat generating component; 21. a heating body; 22. an installation part; 30. a conductive member; 31. a conductive plate; 32. a conductive connection board; 321. a first plate section; 322. a second plate section; 323. a first card slot; 324. a second card slot; 325. a third plate section; 326. a third card slot; 327. a fourth card slot; 40. mounting a bracket; 41. a first pole segment; 42. a second pole segment; 421. a first clamping rod section; 422. a second clamping rod section; 423. a first transitional connecting rod segment; 43. a third pole segment; 431. a third clamping rod section; 432. a fourth clamping rod section; 433. a second transition connecting the pole segments.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

The utility model provides a heating structure please refer to fig. 1 to 6, include: a furnace assembly 10; a heat generating component 20 disposed outside the furnace assembly 10; a conductive member 30 disposed between the furnace assembly 10 and the heat generating member 20; and a mounting bracket 40 connected to the furnace assembly 10, wherein the mounting bracket 40 is pressed on the heat generating component 20.

The heating structure of the present invention comprises a furnace assembly 10, a heating component 20, a conducting component 30 and a mounting bracket 40, wherein the heating component 20 of the heating structure is disposed outside the furnace assembly 10, the conducting component 30 is also disposed outside the furnace assembly 10 and between the furnace assembly 10 and the heating component 20, such arrangement enables the heat of the heating component 20 to be rapidly conducted to the inside of the furnace assembly 10 and the furnace assembly 10 through the conducting component 30, thereby increasing the heating conduction speed of the heating component; and, press the installing support 40 on the heating part 20, in order to insert the conducting part 30 between heating part 20 and furnace assembly 10, make the conducting part 30 fully contact with furnace assembly 10 and heating part 20, further accelerate the heat transfer efficiency, and make the furnace assembly 10 heated evenly, the problem that the furnace assembly 10 turns yellow will not appear. In addition, the installation bracket 40 also facilitates the disassembly, assembly and maintenance of the heat generating component 20 and the conducting component 30.

In the present embodiment, the furnace assembly 10 includes: the furnace lining 11, at least part of the conducting component 30 is jointed with the furnace lining 11; the front panel 12 is connected with the furnace lining coaming 11; the back plate 13 is connected with the furnace lining coaming 11, and the back plate 13 and the front panel 12 are arranged at two opposite sides of the furnace lining coaming 11; the mounting bracket 40 is connected to both the back panel 13 and the front panel 12. The engagement of at least a portion of the conductive member 30 with the furnace enclosure 11 allows heat from the heat generating component 20 to be transferred through the conductive member 30 to the furnace assembly 10 relatively quickly.

Specifically, the mounting bracket 40 is removably connected to both the back panel 13 and the front panel 12. Such an arrangement facilitates installation and removal of the mounting bracket 40.

In this embodiment, the mounting bracket 40 is a rod-shaped structure having a first connecting end and a second connecting end that are oppositely disposed, and the back plate 13 is provided with a first mounting hole 131 and a second mounting hole 132, the first connecting end is inserted into the first mounting hole 131, and the second connecting end is inserted into the second mounting hole 132. Such an arrangement enables the rod-like structure to be fixed to the back plate 13.

Specifically, the mounting bracket 40 is made of iron, specifically, a wire structure.

In the present embodiment, the rod-like structure comprises a first rod segment 41; the front panel 12 is provided with a support portion 121, and the support portion 121 is located below the first rod segment 41 to support the first rod segment 41. This arrangement enables the rod-like structure to be connected to the front panel 12.

In the present embodiment, the supporting portion 121 has a supporting groove 122, the supporting groove 122 is disposed along the extending direction of the first rod segment 41, and at least a portion of the first rod segment 41 is located in the supporting groove 122. The first rod section 41 is clamped in the support groove 122, so that the rod-shaped structure is fixed to the front panel 12.

Specifically, the support groove 122 is a U-shaped groove.

In the embodiment, the conducting member 30 includes a conducting plate 31 and a conducting connecting plate 32 connected to the conducting plate 31, and the conducting plate 31 is attached to the furnace shell 11; a conductive connection plate 32 is arranged around the conductive plate 31 and the rod-like structure is snap-fitted to the conductive connection plate 32. Such an arrangement can fix the middle portions of the conductive member 30 and the heat generating member 20, so that the mounting bracket 40 can more securely mount the conductive member 30 and the heat generating member 20.

In this embodiment, the rod-like structure further comprises a second rod segment 42, one end of the second rod segment 42 is connected to the first rod segment 41, the other end of the second rod segment 42 forms a first connection end, and the second rod segment 42 is clamped to the conductive connection plate 32.

In this embodiment, the conducting connecting plate 32 includes a first plate 321 and a second plate 322 connected to the first plate 321, the first plate 321 and the second plate 322 form a first preset included angle, the first plate 321 is provided with a first engaging groove 323, and the second plate 322 is provided with a second engaging groove 324; the second rod segment 42 includes a first fastening rod segment 421 and a second fastening rod segment 422, one end of the first fastening rod segment 421 forms a first connection end, the other end of the first fastening rod segment 421 is connected to the second fastening rod segment 422, the first fastening rod segment 421 is fastened in the first slot 323, and the second fastening rod segment 422 is fastened in the second slot 324.

Optionally, the first preset included angle is 90 degrees, and other angles may also be used.

Optionally, the first snapping lever segment 421 and the second snapping lever segment 422 are vertically disposed.

In this embodiment, the second rod segment 42 further includes a first transitional connecting rod segment 423, one end of the first transitional connecting rod segment 423 is connected to one end of the second fastening rod segment 422 away from the first fastening rod segment 421, and the other end of the first transitional connecting rod segment 423 is connected to the first rod segment 41; wherein the first transitional connecting rod segment 423 and the first fastening rod segment 421 are disposed on two opposite sides of the second plate segment 322.

Optionally, the first transitional coupling rod segment 423 is disposed parallel to the first snap rod segment 421 and perpendicular to the second snap rod segment 422. Specifically, the first snap rod segment 421, the second snap rod segment 422, and the first transitional coupling rod segment 423 are located in the same plane.

In this embodiment, the first rod section 41 is located on the side of the second rod section 42 away from the furnace enclosure 11, and this arrangement makes the supporting effect of the mounting bracket better, and the structure is stable and firm after mounting.

In particular, the second segment 42 further comprises a third transitional connecting segment, by which the first transitional connecting segment 423 is connected with the first segment 41. Optionally, a third transitional coupling rod segment is disposed perpendicular to the first transitional coupling rod segment 423 and the third transitional coupling rod segment is disposed perpendicular to the first rod segment 41.

In this embodiment, the rod-like structure further comprises a third rod segment 43, one end of the third rod segment 43 is connected to the end of the first rod segment 41 remote from the second rod segment 42, the other end of the third rod segment 43 forms a second connection end, and the third rod segment 43 is clamped to the conductive connection plate 32.

In this embodiment, the conducting connection board 32 includes a third board segment 325, the third board segment 325 is connected to one end of the first board segment 321 away from the second board segment 322, the third board segment 325 and the first board segment 321 form a second preset included angle, the first board segment 321 is provided with a third card slot 326, and the third board segment 325 is provided with a fourth card slot 327; the third rod section 43 comprises a third clamping rod section 431 and a fourth clamping rod section 432, one end of the third clamping rod section 431 forms a second connecting end, the other end of the third clamping rod section 431 is connected with the fourth clamping rod section 432, the third clamping rod section 431 is clamped in the third clamping groove 326, and the fourth clamping rod section 432 is clamped in the fourth clamping groove 327; the third rod section 43 further comprises a second transitional connecting rod section 433, one end of the second transitional connecting rod section 433 is connected with one end of the fourth clamping rod section 432 far away from the third clamping rod section 431, and the other end of the second transitional connecting rod section 433 is connected with the first rod section 41; wherein the second transitional coupling rod segment 433 and the third snap rod segment 431 are disposed on opposite sides of the third plate segment 325.

Specifically, third plate segment 325 and second plate segment 322 are disposed on opposite sides of first plate segment 321.

Optionally, the second preset included angle is 90 degrees, and other angles may also be used.

Optionally, the third snap rod segment 431 and the fourth snap rod segment 432 are arranged vertically.

Optionally, the second transitional coupling rod segment 433 is disposed parallel to the third clamping rod segment 431 and perpendicular to the fourth clamping rod segment 432. Specifically, the first fastening rod segment 421, the second fastening rod segment 422, the first transitional connecting rod segment 423, the second transitional connecting rod segment 433, the third fastening rod segment 431, and the fourth fastening rod segment 432 are all located in the same plane.

In this embodiment, the first rod section 41 is located on the side of the third rod section 43 away from the furnace lining 11, and this arrangement makes the supporting effect of the mounting bracket better, and the structure is stable and firm after mounting.

In particular, the third pole segment 43 further comprises a fourth transitional connecting pole segment, by which the second transitional connecting pole segment 433 is connected with the first pole segment 41. Optionally, a fourth transitional coupling rod segment is disposed perpendicular to the second transitional coupling rod segment 433 and the fourth transitional coupling rod segment is disposed perpendicular to the first rod segment 41.

It should be noted that the first segment 41 is symmetrically disposed with respect to a symmetry line perpendicular to the axis of the first segment 41, and the third segment 43 and the second segment 42 are symmetrically configured with respect to the symmetry line.

In this embodiment, the lining 11 is provided with a guiding groove 111, the conducting member 30 is disposed in the guiding groove 111, and at least a part of the conducting member 30 is attached to the bottom of the guiding groove 111. Such an arrangement saves the footprint of the conducting member 30 and facilitates the installation of the conducting member 30.

Specifically, the guiding groove 111 is arranged at the bottom of the furnace lining enclosing plate 11, and the conducting plate 31 is attached to the bottom of the guiding groove 111.

Specifically, the conductive member 30 is pre-fixed to the furnace shell 11 by using a height difference between the bottom of the furnace shell 11 and the bottom of the guide groove 111.

In the present embodiment, the heat generating component 20, the conducting component 30, and the mounting bracket 40 are all disposed below the furnace skirt 11.

In the present embodiment, the heat generating component 20 includes a heat generating body 21 and a mounting portion 22 connected to the heat generating body 21, the mounting portion 22 being used for connection with the back plate 13.

In the present embodiment, the heat generating body 21 has a first end and a second end oppositely disposed, and both the first end and the second end are inserted on the back plate 13; the mounting portion 22 is sleeved on the first end and the second end; the heat-generating structure further includes a fastening member, and the fastening member is sequentially inserted into the first fastening hole of the back plate 13 and the second fastening hole of the mounting portion 22.

Specifically, the fastener is a screw or a bolt nut; the first end of the heat generating body 21 is inserted into the third mounting hole of the back plate 13, and the second end of the heat generating body 21 is inserted into the fourth mounting hole of the back plate 13.

When mounting, the conducting member 30 is pre-fixed in the guiding groove 111; inserting the heat generating component 20 into the third and fourth mounting holes toward the rear end, fixing the mounting portion 22 to the back plate 13 with a fastener, and pre-pressing the conductive member 30; inserting the mounting bracket 40 into the first mounting hole 131 and the second mounting hole 132, pressing the other end of the mounting bracket 40 towards one side of the furnace lining coaming 11, and clamping the other end into the first clamping groove 323 and the third clamping groove 326; the mounting bracket 40 is pressed against the front panel 12 and pushed, and the first rod section 41 is clamped into the supporting groove 122, and the middle part of the mounting bracket 40 is clamped into the second clamping groove 324 and the fourth clamping groove 327 by using the elastic deformation of the mounting bracket 40, thereby completing the assembly.

The utility model provides a problem that oven among the prior art exists, include: the heat transfer efficiency is low due to the fact that the heating components are placed at the bottom of the outer side of the furnace pipe assembly 10, and the temperature of the whole machine body is slowly increased; the installation is complex, and the production efficiency is low; after food is processed due to the fact that the heating components are placed in the furnace pipe assembly 10, the oven is difficult to clean, not attractive, unsafe and poor in user experience.

The heating structure of the utility model solves the problems of yellowing of stainless steel of the inner container of the furnace pipe component 10 and slow heating conduction, and is convenient for disassembly, assembly and maintenance, and assembly of the production line; the installation and the disassembly of the heating component 20 are simple and convenient, and the appearance is beautiful; and the installation space of the conduction part is saved, the structure is simple, and the conduction efficiency is high.

The utility model discloses a installing support 40 can fix heating element 20 and conducting part 30, makes conducting part 30 be heated evenly, and heat-conduction is fast, reduces the local high temperature of inner bag stainless steel and becomes yellow and warp. The utility model discloses a solve stove courage subassembly 10 well and yellow easily, generate heat inhomogeneous, temperature inequality in the stove courage subassembly 10, difficult washing scheduling problem.

The utility model also provides an oven, including the heating structure, wherein, the heating structure is the heating structure in the above-mentioned embodiment.

From the above description, it can be seen that the above-mentioned embodiments of the present invention achieve the following technical effects:

the heating structure of the present invention comprises a furnace assembly 10, a heating component 20, a conducting component 30 and a mounting bracket 40, wherein the heating component 20 of the heating structure is disposed outside the furnace assembly 10, the conducting component 30 is also disposed outside the furnace assembly 10 and between the furnace assembly 10 and the heating component 20, such arrangement enables the heat of the heating component 20 to be rapidly conducted to the inside of the furnace assembly 10 and the furnace assembly 10 through the conducting component 30, thereby increasing the heating conduction speed of the heating component; and, press the installing support 40 on the heating part 20, in order to insert the conducting part 30 between heating part 20 and furnace assembly 10, make the conducting part 30 fully contact with furnace assembly 10 and heating part 20, further accelerate the heat transfer efficiency, and make the furnace assembly 10 heated evenly, the problem that the furnace assembly 10 turns yellow will not appear. In addition, the installation bracket 40 also facilitates the disassembly, assembly and maintenance of the heat generating component 20 and the conducting component 30.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (14)

1. A heat generating structure, comprising:

a furnace assembly (10);

a heat generating component (20) disposed outside the furnace assembly (10);

a conductive member (30) disposed between the furnace assembly (10) and the heat generating component (20);

the mounting bracket (40) is connected with the furnace pipe assembly (10), and the mounting bracket (40) is pressed on the heat generating component (20).

2. The heating structure according to claim 1, characterized in that the furnace assembly (10) comprises:

the furnace lining (11), at least part of the conducting component (30) is jointed with the furnace lining (11);

the front panel (12) is connected with the furnace lining coaming (11);

the back plate (13) is connected with the furnace lining enclosing plate (11), and the back plate (13) and the front panel (12) are arranged on two opposite sides of the furnace lining enclosing plate (11);

the mounting bracket (40) is connected with both the back plate (13) and the front panel (12).

3. The heating structure according to claim 2, wherein the mounting bracket (40) is a rod-shaped structure having a first connecting end and a second connecting end which are oppositely arranged, the back plate (13) is provided with a first mounting hole (131) and a second mounting hole (132), the first connecting end is inserted into the first mounting hole (131), and the second connecting end is inserted into the second mounting hole (132).

4. A heat generating structure according to claim 3, wherein said rod-like structure comprises a first rod segment (41); a supporting part (121) is arranged on the front panel (12), and the supporting part (121) is positioned below the first rod section (41) to bear the first rod section (41).

5. The heat generating structure according to claim 4, wherein the support portion (121) has a support groove (122), the support groove (122) being provided along an extending direction of the first rod section (41), at least a part of the first rod section (41) being located in the support groove (122).

6. The heating structure according to claim 4, wherein the conductive member (30) comprises a conductive plate (31) and a conductive connecting plate (32) connected to the conductive plate (31), the conductive plate (31) being attached to the furnace skirt (11); the conduction connecting plate (32) is wound around the conduction plate (31), and the rod-shaped structure is clamped with the conduction connecting plate (32).

7. The heating structure according to claim 6, wherein the rod-like structure further comprises a second rod segment (42), one end of the second rod segment (42) being connected to the first rod segment (41), the other end of the second rod segment (42) forming the first connection end, the second rod segment (42) being snapped into the conductive connection plate (32).

8. The heating structure according to claim 7, wherein the conductive connecting plate (32) comprises a first plate section (321) and a second plate section (322) connected to the first plate section (321), the first plate section (321) and the second plate section (322) are arranged at a first preset included angle, the first plate section (321) is provided with a first clamping groove (323), and the second plate section (322) is provided with a second clamping groove (324);

the second rod section (42) comprises a first clamping rod section (421) and a second clamping rod section (422), the first connecting end is formed at one end of the first clamping rod section (421), the other end of the first clamping rod section (421) is connected with the second clamping rod section (422), the first clamping rod section (421) is clamped in the first clamping groove (323), and the second clamping rod section (422) is clamped in the second clamping groove (324).

9. The heating structure according to claim 8, wherein the second rod segment (42) further comprises a first transitional connecting rod segment (423), one end of the first transitional connecting rod segment (423) is connected with one end of the second clamping rod segment (422) far away from the first clamping rod segment (421), and the other end of the first transitional connecting rod segment (423) is connected with the first rod segment (41);

wherein the first transitional connecting rod segment (423) and the first clamping rod segment (421) are arranged on two opposite sides of the second plate segment (322).

10. The heat generating structure according to claim 8, wherein the rod structure further comprises a third rod segment (43), one end of the third rod segment (43) being connected to the end of the first rod segment (41) remote from the second rod segment (42), the other end of the third rod segment (43) forming the second connection end, the third rod segment (43) being snapped into the conductive connection plate (32).

11. The heating structure according to claim 10, wherein the conductive connecting plate (32) comprises a third plate segment (325), the third plate segment (325) is connected to an end of the first plate segment (321) away from the second plate segment (322), the third plate segment (325) is disposed at a second predetermined included angle with respect to the first plate segment (321), a third slot (326) is disposed on the first plate segment (321), and a fourth slot (327) is disposed on the third plate segment (325);

the third rod section (43) comprises a third clamping rod section (431) and a fourth clamping rod section (432), one end of the third clamping rod section (431) forms the second connecting end, the other end of the third clamping rod section (431) is connected with the fourth clamping rod section (432), the third clamping rod section (431) is clamped in the third clamping groove (326), and the fourth clamping rod section (432) is clamped in the fourth clamping groove (327);

the third rod section (43) further comprises a second transitional connecting rod section (433), one end of the second transitional connecting rod section (433) is connected with one end, far away from the third clamping rod section (431), of the fourth clamping rod section (432), and the other end of the second transitional connecting rod section (433) is connected with the first rod section (41);

wherein the second transitional coupling rod segment (433) and the third snap rod segment (431) are disposed on opposite sides of the third plate segment (325).

12. The heating structure according to any one of claims 2 to 11, wherein a diversion trench (111) is provided on the furnace shell (11), the conducting member (30) is disposed in the diversion trench (111), and the conducting member (30) is at least partially attached to the bottom of the diversion trench (111).

13. The heat generating structure according to any one of claims 2 to 11, wherein the heat generating component (20), the conducting component (30) and the mounting bracket (40) are all disposed below the furnace skirt (11).

14. An oven comprising a heat generating structure, characterized in that the heat generating structure is as claimed in any one of claims 1 to 13.

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