A magnetic wind heat lamp structure convenient to install

By using a magnetic attraction mechanism and a lever-based disassembly mechanism, the complex installation of wind-heat lamp equipment is solved, enabling tool-free quick connection and labor-saving disassembly, thus improving convenience and equipment lifespan.

CN224470332UActive Publication Date: 2026-07-07ZHONGSHAN CITY GRANVILLE ROYAL APPLIANCE CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGSHAN CITY GRANVILLE ROYAL APPLIANCE CO LTD
Filing Date
2025-08-22
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

The installation and disassembly of existing multi-functional heat lamp equipment used in integrated ceilings is complicated and inefficient, requiring tools for physical fixation.

Method used

The disassembly mechanism employs a magnetic attraction mechanism and a lever principle to achieve tool-free and rapid connection and separation between the main unit and the mounting base. Installation and disassembly are achieved by utilizing the attraction of magnets and the mechanical action of levers.

Benefits of technology

It enables tool-free rapid installation and labor-saving disassembly, improving the convenience of installation and maintenance, extending the service life of the equipment, and enhancing safety and thermal efficiency.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model discloses a kind of magnetic attraction type air heating lamp structure of installation convenience, including mounting seat, it is used to install on integrated ceiling;Host, it includes shell, fan being equipped on the shell, and heating tube being set to the fan;Magnetic attraction mechanism, it includes first magnet being equipped on the mounting seat, and second magnet being equipped on the shell;When the first magnet and the second magnet correspond, two mutually adsorb to supply the host with the mounting seat remains connection;Dismounting mechanism, it includes lever being hinged on the mounting seat, and pusher sliding relative to the shell.The utility model provides a kind of magnetic attraction type air heating lamp structure of installation convenience, and the tool-free quick connection of host and mounting seat is realized by magnetic attraction mechanism, installation is convenient and efficient;Dismounting mechanism realizes magnetic attraction separation using lever principle, without directly pulling host, and it is labor-saving to operate and avoid equipment damage, improve installation maintenance convenience and equipment service life.
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Description

Technical Field

[0001] This application relates to the field of heat lamp technology, and in particular to a magnetic heat lamp structure that is easy to install. Background Technology

[0002] In existing technologies, multi-functional heat lamp devices (which combine heating, lighting, and ventilation functions) used on integrated ceilings generally suffer from complex and cumbersome installation and disassembly processes, as well as low efficiency. They typically require the use of tools for physical fixation (such as screwing). Utility Model Content

[0003] To address the aforementioned issues, this technical solution provides an easy-to-install magnetic heat lamp structure.

[0004] To achieve the above objectives, the technical solution is as follows:

[0005] A magnetically attached heat lamp structure for easy installation, including...

[0006] Mounting bracket, which is used for mounting on integrated ceilings;

[0007] The main unit includes a housing, a fan mounted on the housing, and a heating element corresponding to the fan;

[0008] A magnetic attraction mechanism includes a first magnet disposed on the mounting base and a second magnet disposed on the housing; when the first magnet and the second magnet correspond to each other, they attract each other to keep the host connected to the mounting base;

[0009] The disassembly mechanism includes a lever hinged to the mounting base and a pusher that slides relative to the housing; when the main unit is connected to the mounting base, the housing presses against one end of the lever so that the other end of the lever pushes the pusher down; when the pusher rises, it presses against one end of the lever so that the other end of the lever pushes the housing down so that the first magnet and the second magnet are misaligned.

[0010] As described above, the main unit of the magnetically attached heat lamp structure that is easy to install also includes a ring lamp and a heat insulation cover disposed on the housing, wherein the heat insulation cover separates the heating element and the ring lamp into an inner cavity and an outer cavity, respectively.

[0011] As described above, a magnetically attached heat lamp structure that is easy to install includes an inner wall for forming a mounting cavity, a first magnet disposed on the inner wall, and the south and north poles of the first magnet being distributed vertically.

[0012] As described above, in a magnetically attached heat lamp structure that is easy to install, the second magnet is disposed on the outer side wall of the housing, and the north and south poles of the second magnet are distributed vertically. When the main unit is embedded in the mounting base, the outer side wall of the housing is close to the inner side wall of the mounting base.

[0013] As described above, a magnetically attached heat lamp structure that is easy to install includes a protective net on the housing for covering the opening of the inner cavity and a light-transmitting plate for covering the opening of the outer cavity.

[0014] As described above, a magnetic suction heat lamp structure that is easy to install has a vent on the mounting base that connects the mounting cavity to the outside, and an air inlet on the housing that corresponds to and is spaced apart from the vent. The air inlet is located in the mounting cavity.

[0015] The beneficial effects of this application are:

[0016] This utility model provides an easy-to-install magnetic heat lamp structure. The magnetic mechanism enables tool-free and quick connection between the main unit and the mounting base, making installation convenient and efficient. The disassembly mechanism uses the lever principle to achieve magnetic separation, eliminating the need to directly pull the main unit, saving effort and avoiding equipment damage, thus improving the convenience of installation and maintenance and extending the service life of the equipment. Attached Figure Description

[0017] To more clearly illustrate the technical solutions in the embodiments of this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below.

[0018] Figure 1 This is a half-sectional view of this application. Detailed Implementation

[0019] To make the technical problems solved, technical solutions, and beneficial effects of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present utility model and are not intended to limit the present utility model.

[0020] A magnetically attached heat lamp structure for easy installation, including...

[0021] Mounting bracket 1 is used for mounting on an integrated ceiling;

[0022] The main unit 2 includes a housing 21, a fan 22 disposed on the housing 21, and a heating element 23 disposed corresponding to the fan 22;

[0023] The magnetic attraction mechanism 3 includes a first magnet 31 disposed on the mounting base 1 and a second magnet 32 ​​disposed on the housing 21; when the first magnet 31 and the second magnet 32 ​​correspond, they attract each other to keep the host 2 connected to the mounting base 1.

[0024] The disassembly mechanism 4 includes a lever 41 hinged to the mounting base 1 and a pusher 42 that slides relative to the housing 21. When the main unit 2 is connected to the mounting base 1, the housing 21 presses against one end of the lever 41 so that the other end of the lever 41 pushes the pusher 42 down. When the pusher 42 rises, it presses against one end of the lever 41 so that the other end of the lever 41 pushes the housing 21 down, thereby causing the first magnet 31 and the second magnet 32 ​​to be misaligned.

[0025] This utility model provides an easy-to-install magnetic heat lamp structure. The magnetic mechanism enables tool-free and quick connection between the main unit and the mounting base, making installation convenient and efficient. The disassembly mechanism uses the lever principle to achieve magnetic separation, eliminating the need to directly pull the main unit, saving effort and avoiding equipment damage, thus improving the convenience of installation and maintenance and extending the service life of the equipment.

[0026] Furthermore, as a preferred embodiment of this solution and not a limitation, the host unit 2 also includes a ring lamp 24 and a heat insulation cover 25 disposed on the housing 21. The heat insulation cover 25 separates the heating element 23 and the ring lamp 24 into an inner cavity 26 and an outer cavity 27, respectively. The heat insulation cover physically isolates the high-temperature area (inner cavity) generated by the heating element from the area where the ring lamp is located (outer cavity), effectively preventing the high temperature of the heating element from directly radiating or conducting to the ring lamp and its related electronic components, significantly improving the service life and luminous efficiency stability of the ring lamp, while reducing the touch temperature of the lamp surface (especially the light-transmitting plate area), thus improving safety.

[0027] Furthermore, as a preferred embodiment of this solution and not a limitation, the mounting base 1 includes an inner wall 12 for forming a mounting cavity 11. The first magnet 31 is disposed on the inner wall 12, and the south and north poles of the first magnet 31 are distributed vertically. By placing the first magnet on the inner wall of the mounting base and distributing its magnetic poles (south / north poles) vertically, the structural space of the mounting base is fully utilized, making the magnetic attraction point closer to the side wall of the main unit, resulting in a more direct and effective magnetic attraction. Furthermore, when the main unit is inserted into the mounting base, the north poles of the second magnet and the first magnet repel each other, pushing the mounting base and allowing it to be inserted more firmly into the integrated ceiling. When the north pole of the second magnet passes over the north pole of the first magnet and attracts the south pole, the main unit is connected to the mounting base.

[0028] Furthermore, as a preferred embodiment of this solution and not a limitation, the second magnet 32 ​​is disposed on the outer side wall of the housing 21, and the north and south poles of the second magnet 32 ​​are distributed vertically. When the host 2 is embedded in the mounting base 1, the outer side wall of the housing 21 is close to the inner side wall 12 of the mounting base 1. The close fit design between the outer side wall of the host and the inner side wall of the mounting base not only makes the structure more compact and stable, but also minimizes the magnet spacing and enhances the reliability of the magnetic connection.

[0029] Furthermore, as a preferred embodiment of this solution and not a limitation, the housing 21 is provided with a protective mesh 28 for covering the opening of the inner cavity 26 and a light-transmitting plate 29 for covering the opening of the outer cavity 27. The protective mesh for the inner cavity (heating tube area) opening effectively prevents dust and foreign objects from entering and contacting the high-temperature heating tube or fan, ensuring the safe operation and cleanliness of the internal components. The light-transmitting plate for the outer cavity (ring lamp area) opening provides good light diffusion, making the light more uniform and soft, and also protects the ring lamp from dust, moisture, or physical damage.

[0030] Furthermore, as a preferred embodiment of this solution and not a limitation, the mounting base 1 is provided with a vent 13 connecting the mounting cavity 11 to the outside, and the housing 21 is provided with an air inlet 14 corresponding to and spaced apart from the vent 13, the air inlet 14 being located in the mounting cavity 11. When the main unit is working, even with the protection of the heat insulation cover, the outer cavity will inevitably be subject to heat radiation, and the ring light will also emit heat when working. The air inlet being located in the mounting cavity not only allows air to be introduced through the vent, but also allows hot air from the outer cavity to be drawn in, thereby increasing the temperature of the exhaust air while dissipating heat, reducing energy consumption, and improving thermal efficiency.

[0031] The above description is only a preferred embodiment of this application and is not intended to limit the scope of implementation of this application. Any other embodiments whose principles and basic structures are the same as or similar to those of this application are within the protection scope of this application.

Claims

1. A magnetic suction-type heat lamp structure that is easy to install, characterized in that: include Mounting bracket (1), which is used for mounting on integrated ceiling; The main unit (2) includes a housing (21), a fan (22) disposed on the housing (21), and a heating element (23) disposed corresponding to the fan (22); The magnetic attraction mechanism (3) includes a first magnet (31) disposed on the mounting base (1) and a second magnet (32) disposed on the housing (21); when the first magnet (31) and the second magnet (32) correspond to each other, they attract each other so that the host (2) and the mounting base (1) remain connected. The disassembly mechanism (4) includes a lever (41) hinged to the mounting base (1) and a pusher (42) sliding relative to the housing (21); when the main unit (2) is connected to the mounting base (1), the housing (21) presses against one end of the lever (41) so that the other end of the lever (41) pushes the pusher (42) down; when the pusher (42) rises, it presses against one end of the lever (41) so that the other end of the lever (41) pushes the housing (21) down so that the first magnet (31) and the second magnet (32) are misaligned.

2. The magnetic suction type heat lamp structure for easy installation according to claim 1, characterized in that: The host (2) also includes a ring light (24) and a heat shield (25) disposed on the housing (21), the heat shield (25) separating the heating tube (23) and the ring light (24) in the inner cavity (26) and the outer cavity (27), respectively.

3. The magnetic suction type heat lamp structure for easy installation according to claim 2, characterized in that: The mounting base (1) includes an inner wall (12) for forming a mounting cavity (11), the first magnet (31) is disposed on the inner wall (12), and the south and north poles of the first magnet (31) are distributed vertically.

4. The magnetic suction type heat lamp structure for easy installation according to claim 3, characterized in that: The second magnet (32) is disposed on the outer side wall of the housing (21), and the north and south poles of the second magnet (32) are distributed vertically. When the host (2) is embedded in the mounting base (1), the outer side wall of the housing (21) is close to the inner side wall (12) of the mounting base (1).

5. The magnetic suction type heat lamp structure for easy installation according to claim 2, characterized in that: The housing (21) is provided with a protective net (28) for covering the opening of the inner cavity (26) and a light-transmitting plate (29) for covering the opening of the outer cavity (27).

6. The magnetic suction type heat lamp structure for easy installation according to claim 3, characterized in that: The mounting base (1) is provided with a vent (13) that connects the mounting cavity (11) to the outside. The housing (21) is provided with an air inlet (14) that corresponds to and is spaced apart from the vent (13). The air inlet (14) is located in the mounting cavity (11).