CN220817816U - Electric stove with gravity control assembly - Google Patents

Abstract

The utility model relates to an electric furnace with a gravity control assembly, which comprises a base, a panel, a gravity sensor and a heating assembly, wherein the panel is arranged above the base in a suspending way, the heating assembly is positioned at the bottom of the panel, the panel is fixedly connected with a first fixed end of the gravity sensor, a second fixed end of the gravity sensor is fixedly connected with the base, the base is concavely provided with a cavity corresponding to the periphery of the heating assembly, the top of the cavity is opened towards the panel and communicated with the outside, and a gap is formed between the cavity and the heating assembly, and a drain hole for draining water and a heat dissipation assembly for dissipating heat of the heating assembly are arranged in the cavity. According to the utility model, the cavity with the open top is arranged at the periphery of the base corresponding to the heating component, the drainage hole and the heat dissipation component are arranged in the cavity, the cavity can simultaneously realize drainage and heat dissipation of the heating component, the whole machine structure is more compact, and the electric stove is particularly suitable for being used on various electric furnaces.

Description

Electric stove with gravity control assembly

Technical Field

The utility model relates to the field of household appliances, in particular to an electric stove with a gravity control component.

Background

Chinese patent document No. CN219374412U discloses a but gravity control's household electrical appliance base, including drain pan, panel components, gravity inductor and control panel, the panel components is including weighing panel and supporting panel frame, the supporting panel frame is fixed at the drain pan top, and swing joint about weighing panel and the supporting panel frame, gravity inductor has first stiff end, second stiff end and the inductive end of setting between the two, first stiff end and weighing panel fixed connection, second stiff end and supporting panel frame fixed connection, inductive end and control panel electric connection. When the household appliance is used, after the weight of the household appliance pressed on the base is changed in real time, the control board can automatically control the work of the household appliance, and after the user can tap the household appliance to make the weight of the household appliance pressed on the base suddenly change temporarily, the control board can logically control the work of the household appliance according to the preset weight mutation.

The product utilizes weight change logic and rules to control the work of the product, provides a novel control mode and is favored by more users. When the product is applied to an electric furnace, a general heat dissipation and drainage channel is not arranged, so that the whole structure of the product is complex, and further improvement is needed.

Disclosure of utility model

Based on the above, the utility model aims to provide an electric furnace with a gravity control assembly, which overcomes the defects in the prior art, and a cavity with a water draining function and a heat dissipating function is arranged in a base.

According to the electric stove with gravity control assembly of this purpose design, including base, panel, gravity inductor and heating element, the panel suspension sets up in the base top, and heating element is located the bottom of panel, the first stiff end fixed connection of panel and gravity inductor, the second stiff end and the base fixed connection of gravity inductor, the base corresponds the periphery concave cavity that is equipped with of heating element, and the cavity top is opened towards the panel and is communicated with the external world and forms the space with heating element between, be equipped with in the cavity and be used for its drainage hole and be used for the radiating cooling element of heating element.

The top of the base is provided with a guide groove, the guide groove is arranged on the periphery of the panel, a flow guide gap is arranged between the guide groove and the panel, and the cavity can be communicated with the outside through the flow guide gap.

The guide groove is provided with an inclined surface which gradually inwards contracts from top to bottom, or the guide groove is provided with a plurality of steps which gradually inwards contracts from top to bottom.

The drain hole runs through the base and is communicated with the outside, the cavity is provided with a lowest position for converging liquid from top to bottom, and the drain hole is arranged at the lowest position or near the lowest position.

The heat dissipation assembly comprises an air inlet channel, the horizontal height of the air inlet channel is higher than that of the drain hole, the air inlet channel and the drain hole are staggered, and the air inlet channel is provided with a heat dissipation fan.

The air inlet duct of the heat radiation component is positioned below or beside the heating component, and when the heat radiation fan rotates, heat radiation airflow is generated from bottom to top or from top to bottom or from inside to outside.

The heating component is an electromagnetic oven heating component or an electroceramic oven heating component.

The heating assembly is mounted in the cavity or at the bottom of the panel.

The gravity sensors are more than two groups, the gravity sensors are distributed on the periphery of the panel, the heating assembly and the base, the top of the base is provided with mounting holes corresponding to the gravity sensors, the side parts of the mounting holes are provided with slots, the second fixed ends of the gravity sensors are fixed on the slots in an inserting mode, the bottom of the panel is provided with mounting columns, and the first fixed ends of the gravity sensors are fixed on the mounting columns through screws.

The periphery of the mounting hole is provided with a blocking rib, and the horizontal height of the blocking rib is higher than the top surface of the base and a clearance is formed between the blocking rib and the panel.

The utility model has the beneficial effects that:

According to the utility model, the cavity with the open top is arranged at the periphery of the base corresponding to the heating component, the drainage hole and the heat dissipation component are arranged in the cavity, the cavity can simultaneously realize drainage and heat dissipation of the heating component, the whole machine structure is more compact, and the electric stove is particularly suitable for being used on various electric furnaces.

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.

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a perspective view of a first embodiment of the present utility model.

Fig. 2 is a general sectional view 1 of a first embodiment of the present utility model.

Fig. 3 is a general sectional view 2 of a first embodiment of the present utility model.

Fig. 4 is an exploded view of the first embodiment of the present utility model, shown in fig. 1.

Fig. 5 is an exploded view of fig. 2 of a first embodiment of the present utility model.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below.

First embodiment

As shown in fig. 1-5, the electric furnace with the gravity control assembly comprises a base 1, a panel 2, a gravity sensor 3 and a heating assembly 4, wherein the panel 2 is arranged above the base 1 in a suspending manner, the heating assembly 4 is positioned at the bottom of the panel 2, the panel 2 is fixedly connected with a first fixed end of the gravity sensor 3, a second fixed end of the gravity sensor 3 is fixedly connected with the base 1, a cavity 11 is concavely arranged on the periphery of the base 1 corresponding to the heating assembly 4, the top of the cavity 11 is opened towards the panel 2 and is communicated with the outside, a gap 10 is formed between the cavity and the heating assembly 4, and a drain hole 111 for draining water and a heat dissipation assembly for dissipating heat of the heating assembly 4 are arranged in the cavity 11.

By the technical scheme, the cavity 11 has the function of draining water and radiating heat to the heating component 4; specifically, the draining function of the cavity 11 is realized in such a way that the liquid overflowed from the panel 2 or other positions of the circuit flows downwards into the cavity 11 through the opening opened at the top of the cavity 11 under the action of gravity, and the cavity 11 forms a gap 10 between the heating components 4, so that the liquid cannot be stained on the heating components 4, and flows into the cavity 11, then flows to the drain hole 111, and flows out of the circuit; the heat dissipation of the heating element 4 by the cavity 11 is achieved by radiating the excessive heat generated by the heating element 4 to the air gap 10, and it is well known that the heat dissipation element generally has a heat dissipation fan (not shown in the drawings and described in detail below), and the heat dissipation fan causes a heat dissipation air flow blown out to the top opening of the cavity 11 in the air gap 10, or generates a heat dissipation air flow sucked from the top opening of the cavity 11, and the heat dissipation air flow flows through the air gap 10 and takes away the excessive heat generated by the heating element 4, which is understood by those skilled in the art. The cavity 111 can simultaneously realize drainage and heat dissipation of the heating component 4, and the whole machine structure is more compact, and is particularly suitable for various electric furnaces, such as an electromagnetic furnace, an electroceramic furnace, an electric heating tea furnace and the like.

Further, the top of the base 1 is provided with a guide groove 12, the guide groove 12 is arranged at the periphery of the panel 2, a guide gap 121 is formed between the guide groove 12 and the panel 2, the cavity 11 can be communicated with the outside through the guide gap 121, the guide groove 12 can partially or completely enclose the panel 2, the appearance of the whole machine is more attractive, in addition, the guide gap 121 can be formed with the panel 2, and the guide of liquid or air flow is facilitated, so that the guide of liquid or air flow can be understood by those skilled in the art.

Further, the guide groove 12 is provided with an inclined plane which gradually contracts inwards from top to bottom, or the guide groove 12 is a plurality of steps which gradually contracts inwards from top to bottom, in this embodiment, a combination mode of the two steps is adopted, specifically, the guide groove 12 in the middle position of the base 1 adopts an inclined plane design, the guide groove 12 in the peripheral position of the base 1 adopts a step design, in practical design, any design scheme can also be adopted, and those skilled in the art can understand.

Further, the drain hole 111 penetrates through the base 1 and is communicated with the outside, the cavity 11 has a lowest position for converging liquid from top to bottom, the drain hole 111 is opened at the lowest position or is opened near the lowest position, specifically, the cross section of the cavity 11 in this embodiment is in a U shape with a flush bottom surface, the drain hole 111 is opened on the bottom surface, the bottom surface is substantially the lowest position of the cavity 11, and the drain of the entered liquid is facilitated.

Further, the radiator unit includes air inlet wind channel 13, the horizontal altitude that air inlet wind channel 13 is located is higher than the horizontal altitude of wash port 111, and air inlet wind channel 13 staggers each other with wash port 111, and air inlet wind channel 13 is equipped with radiator fan, through this modified technical scheme, can guarantee radiator unit during operation, can not be in the radiator unit with the liquid entanglement, perhaps in the heat dissipation air current, realize better drainage, the effect of the mutual independent separation of heat dissipation, mutually noninterfere, all can be understood to the person skilled in the art.

Further, the air inlet duct 13 of the heat dissipation assembly is located below or beside the heating assembly 4, when the heat dissipation fan rotates, heat dissipation air flow is generated from bottom to top or from top to bottom or from inside to outside, in this embodiment, when the heat dissipation fan rotates, the air inlet duct 13 of the heat dissipation assembly is located below the heating assembly 4, the heat dissipation air flow is generated from bottom to top, that is, the heat dissipation fan sucks air from the bottom of the base 1, enters the cavity 10 through the air inlet duct 13 and blows out upwards, so as to take away the surplus heat generated by the operation of the heating assembly 4, thereby satisfying the heat dissipation effect of the heating assembly.

Further, the heating component 4 is an induction cooker heating component or an electroceramic cooker heating component, and the heating component 4 is installed in the cavity 11 or at the bottom of the panel 2. This embodiment is preferably a version of an electroceramic stove heating assembly which can be secured in the cavity 11 in a conventional manner, for example by screwing.

Further, the gravity sensors 3 are more than two groups, they are distributed on the periphery of the panel 2, the heating component 4 and the base 1 (in this embodiment, the gravity sensors 3 are preferably four groups, and are respectively distributed on four corners of the periphery of the panel 2, the heating component 4 and the base 1, more gravity sensors 3 are arranged, the obtained weighing data change data will be more accurate), the top of the base 1 corresponds to the gravity sensors 3, the mounting holes 14 are formed in the sides of the mounting holes 14, the slots 140 are formed in the sides of the mounting holes 14, the second fixed ends of the gravity sensors 3 are fixedly inserted into the slots 140, the mounting columns 20 are arranged at the bottom of the panel 2, the first fixed ends of the gravity sensors 3 are fixed on the mounting columns 20 through screws 21, the assembly mode is simple, and after the assembly, the panel 2 is loosened from the base 1.

Further, the periphery of the mounting hole 14 is provided with a blocking rib 141, the level of the blocking rib 141 is higher than the top surface of the base 1 and an avoidance gap 142 is formed between the blocking rib and the panel 2, so that the liquid is prevented from accidentally flowing into the mounting hole 14, and in addition, the existence of the avoidance gap 142 does not affect the relative movement between the panel 2 and the base 1 (the panel 2 is pressed downwards and is pressed upwards).

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

The utility model relates to an electric furnace with a gravity control assembly, which comprises a base, a panel, a gravity sensor and a heating assembly, wherein the panel is arranged above the base in a suspending way, the heating assembly is positioned at the bottom of the panel, the panel is fixedly connected with a first fixed end of the gravity sensor, a second fixed end of the gravity sensor is fixedly connected with the base, the base is concavely provided with a cavity corresponding to the periphery of the heating assembly, the top of the cavity is opened towards the panel and communicated with the outside, and a gap is formed between the cavity and the heating assembly, and a drain hole for draining water and a heat dissipation assembly for dissipating heat of the heating assembly are arranged in the cavity. According to the utility model, the bottom seat is provided with the cavity with the open top corresponding to the periphery of the heating component, the cavity is internally provided with the drain hole and the heat dissipation component, and the cavity can simultaneously realize drainage and heat dissipation of the heating component.

Claims (10)

1. The utility model provides an electric stove with gravity control subassembly, includes base (1), panel (2), gravity inductor (3) and heating element (4), panel (2) suspension sets up in base (1) top, and heating element (4) are located the bottom of panel (2), and first stiff end fixed connection of panel (2) and gravity inductor (3), the second stiff end and the base (1) fixed connection of gravity inductor (3), a serial communication port, the periphery concave cavity (11) that are equipped with of heating element (4) are corresponding to base (1), cavity (11) top towards panel (2) open with external intercommunication and with heating element (4) between form space (10), be equipped with in cavity (11) be used for to its wash port (111) of drainage and be used for radiating heat dissipation assembly to heating element (4).

2. The fire having a gravity control assembly according to claim 1, wherein: the top of the base (1) is provided with a guide groove (12), the guide groove (12) is arranged on the periphery of the panel (2) and a flow guide gap (121) is arranged between the guide groove and the panel, and the cavity (11) can be communicated with the outside through the flow guide gap (121).

3. The fire having a gravity control assembly according to claim 2, wherein: the guide groove (12) is provided with an inclined surface which gradually inwards contracts from top to bottom, or the guide groove (12) is provided with a plurality of steps which gradually inwards contracts from top to bottom.

4. The fire having a gravity control assembly according to claim 1, wherein: the drain hole (111) penetrates through the base (1) and is communicated with the outside, the cavity (11) is provided with a lowest position for converging liquid from top to bottom, and the drain hole (111) is arranged at the lowest position or near the lowest position.

5. The fire having a gravity control assembly according to claim 1, wherein: the heat dissipation assembly comprises an air inlet duct (13), the horizontal height of the air inlet duct (13) is higher than that of the drain hole (111), the air inlet duct (13) and the drain hole (111) are staggered, and the air inlet duct (13) is provided with a heat dissipation fan.

6. The fire having a gravity control assembly according to claim 5, wherein: the air inlet duct (13) of the heat radiation component is positioned below or beside the heating component (4), and when the heat radiation fan rotates, heat radiation air flow is generated from bottom to top or from top to bottom or from inside to outside.

7. The fire having a gravity control assembly according to claim 1, wherein: the heating component (4) is an electromagnetic oven heating component or an electroceramic oven heating component.

8. The fire having a gravity control assembly according to claim 1, wherein: the heating component (4) is arranged in the cavity (11) or at the bottom of the panel (2).

9. The fire having a gravity control assembly according to any one of claims 1 to 8, wherein: the gravity sensor (3) is more than two groups, and they distribute in panel (2), heating element (4), the periphery of base (1), and mounting hole (14) have been seted up corresponding gravity sensor (3) in base (1) top, slot (140) have been seted up to mounting hole (14) lateral part, the second stiff end of gravity sensor (3) is pegged graft and is fixed on slot (140), and panel (2) bottom is equipped with erection column (20), and the first stiff end of gravity sensor (3) passes through screw (21) to be fixed on erection column (20).

10. The fire having a gravity control assembly according to claim 9, wherein: the periphery of the mounting hole (14) is provided with a blocking rib (141), and the horizontal height of the blocking rib (141) is higher than the top surface of the base (1) and an avoidance gap (142) is formed between the blocking rib and the panel (2).