A support and installation structure for an electric ceramic stove
By designing limiting components and a pressing mechanism, the problem of the embedded ceramic cooktop being unable to be locked onto tabletops of varying thicknesses has been solved, thus achieving stable installation and safe use of the ceramic cooktop.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GETROM HOME APPLIANCE CO LTD
- Filing Date
- 2025-09-29
- Publication Date
- 2026-06-30
AI Technical Summary
Existing built-in ceramic cooktops cannot be stably locked on tabletops of varying thicknesses, leading to the risk of them falling off and affecting safety and stability during use.
The electric ceramic stove is stably locked by using a limiting component and a pressing mechanism, including a limiting component, a pressing component and a pressing plate. By adjusting the position of the collar and the locking block and the locking block, the pressing component contacts the table surface.
This technology enables stable installation of the electric ceramic stove on tabletops of varying thicknesses, enhancing its stability and safety.
Smart Images

Figure CN224434488U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of electric ceramic stove installation technology, specifically relating to an electric ceramic stove support installation structure. Background Technology
[0002] An electric ceramic cooktop is a type of stove that converts electrical energy into heat energy using the heating effect of electric current. Its main structure consists of a heating plate, a microcrystalline plate, an electronic control system, a temperature control system, and a cooktop body. The heating plate heats the food on the cooktop, making it a common kitchen appliance. The installation method varies depending on the type of electric ceramic cooktop, including built-in models. Built-in cooktops are typically installed directly into corresponding slots on the countertop, using spring clips on both sides to lock the position, thus achieving proper installation and positioning.
[0003] Existing built-in ceramic cooktops rely on the elasticity of spring clips on both sides to apply pressure to the inner wall of the slot during installation. This lateral force quickly locks the cooktop in place. However, this method has some drawbacks in actual use. Specifically, when the thickness of the tabletop varies, the cooktop cannot lock its vertical position when installed on a tabletop thicker than itself. This causes the cooktop to detach from the slot when pulled externally, affecting the overall safety and stability of the cooktop during use. Utility Model Content
[0004] The purpose of this section is to outline some aspects of embodiments of the present invention and to briefly describe some preferred embodiments. Simplifications or omissions may be made in this section, as well as in the abstract and title of this application, to avoid obscuring the purpose of these documents; however, such simplifications or omissions should not be construed as limiting the scope of the present invention.
[0005] To address the problems mentioned in the background section, the present invention adopts the following technical solution.
[0006] An electric ceramic stove support and installation structure includes limiting components installed on the main body of the electric ceramic stove. The main body of the electric ceramic stove includes a protective shell and a heating platform. The protective shell is installed in a slot in the table. The heating platform is installed at the top opening of the protective shell. The lower surface of the heating platform is in contact with the table. Limiting components are symmetrically installed on the side wall of the protective shell. Extrusion mechanisms that limit the position of the electric ceramic stove are symmetrically installed on the side of the main body of the electric ceramic stove.
[0007] As a preferred embodiment of this utility model, the extrusion mechanism includes a mating chamber, a positioning rod, and a locking block. The mating chamber is symmetrically installed at the bottom of the protective shell. The mating chamber and the main body of the electric ceramic stove are provided with an installation groove. The positioning rod is fixedly installed in the installation groove. The locking block is symmetrically installed on the side of the positioning rod. A collar is slidably installed on the outside of the positioning rod. A moving groove is provided inside the collar. A locking block is slidably installed in the moving groove. The locking block and the locking block are engaged. A pull rod is installed at the end of the locking block. A spring assembly is sleeved on the outside of the pull rod. An extrusion component is installed on the side wall of the collar to make extrusion contact with the lower surface of the table.
[0008] As a preferred embodiment of this utility model, the extrusion component includes a connecting rod and an extrusion frame. The connecting rod is installed on the side wall of the collar, and the end of the connecting rod is fitted with an extrusion frame that fits against the lower surface of the table.
[0009] As a preferred technical solution of this utility model, the extrusion component further includes a mounting plate and an extrusion plate. The mounting plate is installed on the side wall of the collar, and the extrusion plates are installed at equal intervals on the side of the mounting plate. The extrusion plates are in extrusive contact with the inner wall of the slot.
[0010] As a preferred embodiment of this utility model, the overall dimensions of the mounting groove are larger than the volume of the extrusion component itself, and the extrusion component is housed within the mounting groove.
[0011] As a preferred technical solution of this utility model, the limiting member includes a spring, a bonding piece, and a threaded rod. The bonding pieces are symmetrically arranged on the side wall of the protective shell. The bonding pieces are installed on the protective shell through the threaded rod. A spring is installed at the end of the bonding piece, and the spring is in extrusion contact with the inner wall of the slot.
[0012] As a preferred technical solution of this utility model, the main body of the electric ceramic stove also includes a heating plate and a control panel. The heating plate for heating items on the heating platform is installed inside the protective shell. The control panel for controlling the operating temperature and duration of the heating plate is provided inside the protective shell, and heat dissipation holes for assisting the control panel to dissipate heat are opened at the edge of the protective shell.
[0013] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0014] This invention, by setting a limiting component and a pressing mechanism, allows for adjustment of the collar's position and height according to table thicknesses. The adjusted collar is quickly positioned by the engaging block and locking block, allowing the pressing component to press against the lower surface of the table, locking the position of the ceramic cooker body. The pressing component includes a connecting rod and a pressing frame. As the collar moves, the top of the pressing frame stably adheres to the lower surface of the table, working in conjunction with the heating platform's contact with the upper surface of the table to quickly lock the position of the ceramic cooker body. The pressing component also includes a mounting plate and a pressing plate. The pressing plate presses against the inner wall of the slot, utilizing its own structure to enhance the stability of the ceramic cooker body installed on the table, ensuring stability during installation. Attached Figure Description
[0015] Figure 1 This is a perspective view of the electric ceramic stove and table structure of this utility model.
[0016] Figure 2 This is a perspective view of the main structure of the electric ceramic stove of this utility model.
[0017] Figure 3 This is a perspective view of the limiting component and extrusion mechanism structure of this utility model.
[0018] Figure 4 This is a schematic diagram of the limiting component in this utility model.
[0019] Figure 5 This is a schematic diagram of the extrusion mechanism in this utility model.
[0020] Figure 6 This is a schematic diagram of the extrusion mechanism in this utility model and the extrusion component in Embodiment 1.
[0021] Figure 7 This is a schematic diagram of the extrusion component in Embodiment 2.
[0022] The correspondence between the labels and component names in the attached figures is as follows:
[0023] 1. Main body of the electric ceramic stove; 11. Protective shell; 12. Heating platform; 13. Heating plate; 14. Control panel; 2. Limiting component; 21. Spring; 22. Fitting piece; 23. Threaded rod; 3. Extrusion mechanism; 31. Fitting chamber; 32. Positioning rod; 33. Locking block; 34. Collar; 35. Locking block; 36. Pulling rod; 37. Spring assembly; 38. Extrusion component; 381. Connecting rod; 382. Extrusion frame; 383. Mounting plate; 384. Extrusion plate. Detailed Implementation
[0024] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.
[0025] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Those skilled in the art can make similar extensions without departing from the spirit of the present invention. Therefore, the present invention is not limited to the specific embodiments disclosed below.
[0026] Secondly, the term "an embodiment" or "embodiment" as used herein refers to a specific feature, structure, or characteristic that may be included in at least one implementation of the present invention. The phrase "in one embodiment" appearing in different places in this specification does not necessarily refer to the same embodiment, nor is it a single or selective embodiment that excludes other embodiments. The present invention provides the following embodiments.
[0027] Example 1
[0028] like Figure 1 and Figure 2 As shown, this is a schematic diagram of the support and installation structure of the electric ceramic stove in this embodiment. The electric ceramic stove in this embodiment can adapt to tabletops of different thicknesses, allowing the electric ceramic stove to be stably installed inside tabletops of different thicknesses, and locking the vertical position of the electric ceramic stove to ensure the stability of the electric ceramic stove during use. The support and installation structure of the electric ceramic stove includes limiting members 2 installed on both sides of the electric ceramic stove body 1. The electric ceramic stove body 1 is an existing embedded electric ceramic stove. The limiting members 2 are installed on both sides of the electric ceramic stove body 1. The pressing mechanism 3 for locking the vertical position of the electric ceramic stove body 1 is symmetrically installed on the side wall of the electric ceramic stove body 1.
[0029] It is worth noting that the main body 1 of the electric ceramic stove is directly installed in the slot on the table, and the specifications of the slot on the table correspond to the specifications of the main body 1 of the electric ceramic stove itself.
[0030] As attached Figure 2 As shown, this is a schematic diagram of the structure of the electric ceramic stove body 1 in this embodiment. The electric ceramic stove body 1 includes a protective shell 11, a heating platform 12, and a heating plate 13. The protective shell 11 is installed in the slot on the table. The heating platform 12 is installed at the opening at the top of the protective shell 11. The heating plate 13 for heating items is installed inside the protective shell 11. After the heating plate 13 is powered on, it will generate a large amount of heat to heat the items placed on the heating platform 12. A control panel 14 is installed inside the protective shell 11. The use of the control panel 14 controls the amount of heat generated by the heating plate 13.
[0031] It is worth noting that multiple sets of heat dissipation holes are equidistantly provided on the side wall of the protective shell 11 and on the side of the control panel 14. The heat dissipation holes dissipate the heat generated by the control panel 14 during operation, assist the overall heat dissipation of the ceramic cooker, ensure stable operation of the ceramic cooker, and extend the service life of the control panel 14 itself.
[0032] As attached Figure 3 , Figure 4 As shown, this is a structural schematic diagram of the limiting member 2 in this embodiment. The limiting member 2 includes a spring piece 21, a bonding piece 22, and a threaded rod 23. The bonding pieces 22 are symmetrically arranged on both sides of the ceramic cooker body 1. The bonding pieces 22 are directly installed on the side wall of the protective shell 11 through the threaded rod 23. The end of the bonding piece 22 is equipped with a spring piece 21. The spring piece 21 is pressed and contacted with the inner wall of the tabletop slot, applying a lateral thrust to the ceramic cooker body 1 to assist the ceramic cooker body 1 in stable positioning.
[0033] As attached Figure 5 and Figure 6 As shown, this is a schematic diagram of the extrusion mechanism 3 in this embodiment. The extrusion mechanism 3 includes a mating chamber 31, a positioning rod 32, and a locking block 33. The mating chamber 31 is installed at the bottom of the protective shell 11. An installation groove is provided in the mating chamber 31, and the positioning rod 32 is installed in the installation groove. Locking blocks 33 are symmetrically installed on both sides of the positioning rod 32. A collar 34 is sleeved on the outside of the positioning rod 32. The collar 34 slides along the length of the positioning rod 32, and a sliding groove is provided in the collar 34 to allow it to pass through the locking block 33. A moving groove is provided in the collar 34, and a locking block 35 is slidably installed in the moving groove. The locking block 35 engages with the locking block 33. A pulling rod 36 is installed at the end of the locking block 35. The pulling rod 36 is slidably connected to the collar 34 and can be pulled... A spring assembly 37 is sleeved on the outside of the rod 36. Depending on the thickness of the table, the collar 34 slides along the length of the positioning rod 32. At this time, under the pressure of the locking block 33, the locking block 35 is pushed into the moving groove by the locking block 33. At this time, the spring assembly 37 enters the storage state. After the collar 34 moves to the target position, the locking block 35 is directly ejected under the elastic force of the spring assembly 37, and the locking block 35 engages with the locking block 33 to lock the position of the collar 34. A pressing member 38 is installed on the side wall of the collar 34. As the position of the collar 34 is locked, the end of the pressing member 38 presses against the lower surface of the table. Under the action of the heating table 12 and the pressing member 38, the position of the electric ceramic stove is stably locked.
[0034] It is worth noting that when the extrusion component 38 is not in use, its direction can be reversed so that it can be stored in the mounting slot in the mating chamber 31, ensuring that the use of the extrusion mechanism 3 as a whole does not affect the stability of the electric ceramic stove body 1 when it is placed.
[0035] As attached Figure 6As shown, this is a structural schematic diagram of the extrusion component 38 in this embodiment. The extrusion component 38 includes a connecting rod 381 and an extrusion frame 382. The connecting rod 381 is installed on the side wall of the collar 34, and the extrusion frame 382 is located at the end of the connecting rod 381. The position height of the connecting rod 381 is synchronously raised and lowered with the collar 34, so that the upper surface of the extrusion frame 382 is in contact with the lower surface of the table. Under the action of the heating table 12 and the extrusion frame 382, the position of the entire electric ceramic stove body 1 is locked.
[0036] Example 2
[0037] As attached Figure 7 As shown, this is a schematic diagram of the extrusion component 38 in this embodiment. The extrusion component 38 includes a mounting plate 383 and an extrusion plate 384. The mounting plate 383 is fixedly installed on the side wall of the collar 34, and the extrusion plate 384 is installed at equal intervals on the side wall of the mounting plate 383. The extrusion plate 384 is in extrusion contact with the inner wall of the slot on the table. When the thickness of the table itself is equal to the thickness of the protective shell 11, the extrusion plate 384 enters the slot synchronously with the installation of the protective shell 11, and the extrusion plate 384 is in extrusion contact with the inner wall of the slot. By utilizing the shape and structure of the extrusion plate 384, the overall position of the electric ceramic stove body 1 is extruded and limited, ensuring the stability of the electric ceramic stove body 1 during use.
[0038] The above description, in conjunction with specific embodiments, provides a further detailed explanation of the present utility model. It should not be construed that the specific implementation of the present utility model is limited to these descriptions. For those skilled in the art, several simple deductions or substitutions can be made without departing from the concept of the present utility model, and all such deductions or substitutions should be considered to fall within the scope of protection defined by the claims submitted by the present utility model.
Claims
1. A support and installation structure for an electric ceramic stove, comprising limiting members (2) installed on the main body (1) of the electric ceramic stove, the main body (1) comprising a protective shell (11) and a heating platform (12), the protective shell (11) being installed in a slot in the table, the heating platform (12) being installed at the top opening of the protective shell (11), the lower surface of the heating platform (12) being in contact with the table, and limiting members (2) being symmetrically installed on the side wall of the protective shell (11), characterized in that: The electric ceramic stove body (1) is symmetrically equipped with a pressing mechanism (3) that limits the position of the electric ceramic stove body (1).
2. The electric ceramic stove support mounting structure according to claim 1, characterized in that: The extrusion mechanism (3) includes a mating chamber (31), a positioning rod (32), and a locking block (33). The mating chamber (31) is symmetrically installed at the bottom of the protective shell (11). The mating chamber (31) and the main body of the electric ceramic stove (1) are provided with an installation groove. The positioning rod (32) is fixedly installed in the installation groove. The locking block (33) is symmetrically installed on the side of the positioning rod (32). A collar (34) is slidably installed on the outside of the positioning rod (32). A moving groove is provided in the collar (34). A locking block (35) is slidably installed in the moving groove. The locking block (35) and the locking block (33) are engaged. A pulling rod (36) is installed at the end of the locking block (35). A spring assembly (37) is sleeved on the outside of the pulling rod (36). An extrusion piece (38) is installed on the side wall of the collar (34) to make contact with the lower surface of the table.
3. The electric ceramic stove support mounting structure according to claim 2, characterized in that: The extrusion component (38) includes a connecting rod (381) and an extrusion frame (382). The connecting rod (381) is installed on the side wall of the collar (34), and the end of the connecting rod (381) is fitted with the extrusion frame (382) that fits against the lower surface of the table.
4. The electric ceramic stove support and installation structure according to claim 2, characterized in that: The extrusion component (38) also includes a mounting plate (383) and an extrusion plate (384). The mounting plate (383) is installed on the side wall of the collar (34), and the extrusion plate (384) is installed at equal intervals on the side of the mounting plate (383). The extrusion plate (384) is in extrusion contact with the inner wall of the slot.
5. The electric ceramic stove support mounting structure according to claim 2, characterized in that: The overall dimensions of the mounting groove are larger than the volume of the extrusion part (38), and the extrusion part (38) is housed in the mounting groove.
6. The electric ceramic stove support mounting structure according to claim 1, characterized in that: The limiting member (2) includes a spring sheet (21), a fitting sheet (22) and a threaded rod (23). The fitting sheet (22) is symmetrically arranged on the side wall of the protective shell (11). The fitting sheet (22) is installed on the protective shell (11) through the threaded rod (23). The end of the fitting sheet (22) is fitted with a spring sheet (21). The spring sheet (21) is pressed against the inner wall of the slot.
7. The electric ceramic stove support mounting structure according to claim 1, characterized in that: The main body (1) of the electric ceramic stove also includes a heating plate (13) and a control panel (14). The heating plate (13) for heating items on the heating platform (12) is installed inside the protective shell (11). The control panel (14) for controlling the operating temperature and duration of the heating plate (13) is provided inside the protective shell (11). Heat dissipation holes for the auxiliary control panel (14) are provided at the edge of the protective shell (11).