Anti-scald pet lamp

By incorporating internal and external lampshade structures and a temperature control system, the problems of burns and inconvenient disassembly associated with pet lamps have been solved, achieving both temperature control and convenient maintenance.

CN224470189UActive Publication Date: 2026-07-07HAINING YOULIAN LIGHTING & ELECTRONICS

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HAINING YOULIAN LIGHTING & ELECTRONICS
Filing Date
2025-09-30
Publication Date
2026-07-07

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Abstract

The utility model relates to lighting equipment technical field, concretely is a kind of anti-scald pet lamp, including inner lamp shade, the inside of inner lamp shade is provided with pet lamp main body, the outside of inner lamp shade is provided with outer lamp shade, temperature control mechanism is arranged between the outer lamp shade and inner lamp shade, the outside of outer lamp shade is fixedly installed with upper supporting block, the top surface of upper supporting block is equipped with guide hole, the bottom of inner lamp shade is fixedly installed with lower supporting block, the top of lower supporting block is fixedly installed with guide column, the top of guide column is provided with friction block, by being provided with a kind of anti-scald pet lamp, to utilize the structural design in temperature control mechanism, temperature sensor can carry out distributed measurement to the internal temperature of outer cover body and feedback to microcontroller, while exhaust fan can accelerate the discharge of hot air in outer lamp shade, to effectively reduce the temperature of outer lamp shade, satisfy the anti-scald demand of pet lamp.
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Description

Technical Field

[0001] This utility model relates to the field of lighting equipment technology, specifically to a scald-proof pet lamp. Background Technology

[0002] As people's living standards continue to improve, keeping pets has become a trend. For some cold-blooded animals, pet lamps are needed for lighting, sterilization, and heating. Some pet lamps with higher power generate a lot of heat, so the lampshade is hot and can easily burn users.

[0003] Currently used anti-scalding pet lamps mostly rely on metal covers to prevent direct contact between the user's hands and the lamp body. However, during use, the metal cover remains very hot after prolonged operation, which can easily cause burns to the user and is not conducive to subsequent use. At the same time, the outer and inner covers of these pet lamps are mostly not easily removable, which makes subsequent maintenance inconvenient and reduces the practical effect of the pet lamp.

[0004] In summary, this utility model solves the problems in the background art by designing a heat-resistant pet lamp. Utility Model Content

[0005] The purpose of this invention is to provide a heat-resistant pet lamp to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, this utility model provides the following technical solution:

[0007] A heat-resistant pet lamp includes an inner lamp cover, inside which a pet lamp body is disposed, and an outer lamp cover is disposed on the outside of the inner lamp cover. A temperature control mechanism is disposed between the outer lamp cover and the inner lamp cover. An upper support block is fixedly installed on the outside of the outer lamp cover, and a guide hole is opened on the top surface of the upper support block. A lower support block is fixedly installed on the bottom of the inner lamp cover, and a guide post is fixedly installed on the top of the lower support block. A friction block is disposed on the top of the guide post.

[0008] The temperature control mechanism includes a temperature sensor, a microcontroller, an upper through-hole, and an exhaust fan. The temperature sensor and the microcontroller are respectively disposed on the outer surface of the outer lamp cover, and the upper through-hole and the exhaust fan are both disposed on the top surface of the outer lamp cover.

[0009] Furthermore, the temperature sensors are symmetrically arranged on the outer surface of the outer lamp cover, and the detection end of the temperature sensor penetrates through the outer surface of the outer lamp cover and extends into its interior.

[0010] Through the above technical solution, the temperature sensor can measure the internal temperature of the external lampshade, so as to control the exhaust fan in the future.

[0011] Furthermore, the upper through hole is opened on the top of the outer lamp cover, and the upper through holes are distributed in a ring at equal intervals about the top surface of the outer lamp cover, and the inner wall of the bottom end of the upper through hole extends into the interior of the outer lamp cover.

[0012] Through the above technical solution, the upper through hole can facilitate the upward discharge of hot air between the outer lamp cover and the inner lamp cover.

[0013] Furthermore, the exhaust fan is embedded in the top surface of the outer lampshade, and both the exhaust fan and the temperature sensor are electrically connected to the microcontroller via wires.

[0014] Through the above technical solution, the microcontroller can receive the measured values ​​from the temperature sensor, and the exhaust fan can guide the air inside the lamp cover so that the hot air can be quickly discharged.

[0015] Furthermore, the outer lamp cover, upper support block, and lower support block are all made of heat-resistant material, the inner lamp cover is made of heat-conducting material, and a gap is left between the bottom outer side of the inner lamp cover and the bottom inner side of the outer lamp cover.

[0016] Through the above technical solution, the inner lampshade can transfer the heat released by the pet lamp body to the inside of the outer lampshade through the heat-conducting material, while the outer lampshade blocks the transfer of heat through the heat-resistant material.

[0017] Furthermore, the guide post is fitted into the inner wall of the guide hole, the outer dimension of the friction block is consistent with the diameter of the guide post, the friction block rotates eccentrically with the top of the guide post via an eccentric shaft, and the bottom surface of the friction block is provided with a damping material layer to increase frictional resistance.

[0018] Through the above technical solution, the guide post can contact the inner wall of the guide hole, and the friction block can make eccentric friction contact with the top surface of the upper support block, which facilitates the convenient fixing or disassembly of the inner and outer lamp covers.

[0019] Compared with the prior art, the beneficial effects of this utility model are:

[0020] 1. In this utility model, by setting up an anti-scalding pet lamp, the temperature control mechanism utilizes a structural design to enable the temperature sensor to perform distributed measurement of the internal temperature of the outer cover and feed it back to the micro controller. At the same time, the exhaust fan can accelerate the exhaust of hot air from inside the outer lamp cover, thereby effectively reducing the temperature of the outer lamp cover and meeting the anti-scalding requirements of the pet lamp.

[0021] 2. In this utility model, a heat-resistant pet lamp is designed with a guide post, guide hole, and friction block. With the guide post in contact with the guide hole, the guide post can drive the friction block through the guide hole and form friction contact with the top of the upper support block. This achieves quick fixation between the upper and lower support blocks, thereby enabling quick assembly and disassembly of the outer and inner lamp covers, which is beneficial for subsequent maintenance. Attached Figure Description

[0022] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0023] Figure 2 This is a schematic diagram of the structure of the inner lampshade of this utility model;

[0024] Figure 3 This utility model Figure 2 A magnified structural diagram of point A in the diagram;

[0025] Figure 4 This is a schematic diagram of the structure of the outer lampshade of this utility model;

[0026] Figure 5 This is a system block diagram of the device of this utility model.

[0027] In the diagram: 1. Inner lampshade; 101. Lower support block; 102. Guide post; 103. Friction block; 2. Pet lamp body; 3. Outer lampshade; 301. Upper support block; 302. Guide hole; 4. Temperature control mechanism; 401. Temperature sensor; 402. Microcontroller; 403. Upper through hole; 404. Exhaust fan. Detailed Implementation

[0028] The technical solutions of the present utility model will be clearly and completely described below with reference to the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the protection scope of the present utility model.

[0029] To facilitate understanding of this utility model, a more comprehensive description of the utility model will be given below with reference to the accompanying drawings, and several embodiments of the utility model will be provided. However, the utility model can be implemented in many different forms and is not limited to the embodiments described herein. On the contrary, the purpose of providing these embodiments is to make the disclosure of the utility model more thorough and complete.

[0030] It should be noted that when an element is referred to as being "fixed to" another element, it can be directly on the other element or there may be an intervening element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or there may be an intervening element. The terms "vertical," "horizontal," "left," "right," and similar expressions used in this document are for illustrative purposes only.

[0031] Unless otherwise defined, 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 invention pertains. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the invention. The term "and / or" as used herein includes any and all combinations of one or more of the associated listed items.

[0032] For examples, please refer to Figure 1-5 This utility model provides a technical solution:

[0033] A heat-resistant pet lamp includes an inner lamp cover 1, a pet lamp body 2 is disposed inside the inner lamp cover 1, an outer lamp cover 3 is disposed outside the inner lamp cover 1, a temperature control mechanism 4 is disposed between the outer lamp cover 3 and the inner lamp cover 1, an upper support block 301 is fixedly installed on the outer side of the outer lamp cover 3, a guide hole 302 is opened on the top surface of the upper support block 301, a lower support block 101 is fixedly installed at the bottom of the inner lamp cover 1, a guide post 102 is fixedly installed at the top of the lower support block 101, and a friction block 103 is disposed at the top of the guide post 102.

[0034] Specifically, the outer lamp cover 3, the upper support block 301 and the lower support block 101 are all made of heat-resistant materials, the inner lamp cover 1 is made of heat-conducting materials, and there is a gap between the bottom outer side of the inner lamp cover 1 and the bottom inner side of the outer lamp cover 3.

[0035] In this embodiment, the outer lampshade 3 can block heat, and the inner lampshade 1 can quickly conduct the heat of the pet lamp body 2 to the interlayer space between the inner lampshade 1 and the outer lampshade 3. The gap is designed to facilitate the entry of air.

[0036] Specifically, the guide post 102 is fitted into the inner wall of the guide hole 302, the outer dimension of the friction block 103 is consistent with the diameter of the guide post 102, the friction block 103 rotates eccentrically with the top of the guide post 102 through the eccentric shaft, and the bottom surface of the friction block 103 is provided with a damping material layer to increase friction resistance.

[0037] In this implementation plan, such as Figure 3 and Figure 4As shown, the guide post 102 is designed to contact the guide hole 302, facilitating alignment between the upper support block 301 and the lower support block 101. The friction block 103 is designed to rotate eccentrically with the top of the guide post 102, causing friction contact force between the friction block 103 and the top surface of the upper support block 301, thereby limiting the displacement of the friction block 103 and achieving the function of convenient disassembly and assembly between the inner lamp cover 1 and the outer lamp cover 3.

[0038] In this embodiment, please refer to Figure 1 , Figure 4 and Figure 5 The temperature control mechanism 4 includes a temperature sensor 401, a microcontroller 402, an upper through hole 403, and an exhaust fan 404. The temperature sensor 401 and the microcontroller 402 are respectively disposed on the outer surface of the outer lamp cover 3, and the upper through hole 403 and the exhaust fan 404 are both disposed on the top surface of the outer lamp cover 3.

[0039] Specifically, temperature sensors 401 are symmetrically arranged on the outer surface of the outer lamp cover 3, and the detection end of the temperature sensor 401 penetrates through the outer surface of the outer lamp cover 3 and extends into its interior. The upper through hole 403 is opened at the top of the outer lamp cover 3, and the upper through hole 403 is distributed in a ring at equal intervals about the top surface of the outer lamp cover 3. The inner wall of the bottom end of the upper through hole 403 extends into the interior of the outer lamp cover 3. The exhaust fan 404 is embedded in the top surface of the outer lamp cover 3, and the exhaust fan 404 and the temperature sensor 401 are electrically connected to the microcontroller 402 through wires.

[0040] In this implementation plan, such as Figure 4 and Figure 5 As shown, the symmetrical arrangement of temperature sensors 401 facilitates the measurement and feedback of the internal temperature distribution of the outer lamp cover 3 to the microcontroller 402. The microcontroller 402 can start the exhaust fan 404 to accelerate the exhaust of hot air from the outer lamp cover 3, thereby achieving the purpose of controlling the internal temperature of the outer lamp cover 3 and meeting the anti-scalding requirements of the pet lamp.

[0041] The working process of this utility model is as follows: When using an anti-scalding pet lamp, the main body 2 of the pet lamp gradually begins to heat up. The inner lampshade 1 then rapidly absorbs and conducts the heat, causing its temperature to rise evenly. The heat then enters the interlayer space between the outer lampshade 3 and the inner lampshade 1 through convection and radiation. Symmetrically arranged temperature sensors 401 monitor the air temperature in the interlayer space in real time and transmit the signal to a microcontroller 402. When the temperature value received by the microcontroller 402 exceeds a set threshold, the microcontroller 402 immediately activates the exhaust fan 404. The exhaust fan 404 operates to extract the hot air from the interlayer space, simultaneously creating a [heat exchange effect] within the interlayer space. Negative pressure allows external cold air to be drawn in through the gap at the bottom of the outer lampshade 3. As the cold air flows through the interlayer space, it carries away the heat from the surfaces of the outer lampshade 3 and the inner lampshade 1, forming an effective active cooling air duct. This achieves the anti-scalding effect of the pet lamp. When it is necessary to separate the inner lampshade 1 from the outer lampshade 3, a rotational force is applied to the friction block 103, causing the friction block 103 to separate from the upper support block 301. Subsequently, under the engagement of the guide post 102 and the guide hole 302, the friction block 103 passes through the guide hole 302 and moves downward, thereby achieving the separation of the upper support block 301 from the lower support block 101. This satisfies the disassembly requirements between the inner lampshade 1 and the outer lampshade 3, which is beneficial for subsequent maintenance.

[0042] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A heat-resistant pet lamp, comprising an inner lampshade (1), characterized in that: The inner lamp cover (1) is provided with a pet lamp body (2) inside. The outer lamp cover (3) is provided on the outside of the inner lamp cover (1). A temperature control mechanism (4) is provided between the outer lamp cover (3) and the inner lamp cover (1). An upper support block (301) is fixedly installed on the outside of the outer lamp cover (3). A guide hole (302) is opened on the top surface of the upper support block (301). A lower support block (101) is fixedly installed at the bottom of the inner lamp cover (1). A guide post (102) is fixedly installed on the top of the lower support block (101). A friction block (103) is provided at the top of the guide post (102).

2. The anti-scalding pet lamp according to claim 1, characterized in that: The temperature control mechanism (4) includes a temperature sensor (401), a microcontroller (402), an upper through hole (403), and an exhaust fan (404). The temperature sensor (401) and the microcontroller (402) are respectively disposed on the outer surface of the outer lamp cover (3), and the upper through hole (403) and the exhaust fan (404) are both disposed on the top surface of the outer lamp cover (3).

3. The anti-scalding pet lamp according to claim 2, characterized in that: The temperature sensors (401) are symmetrically arranged on the outer surface of the outer lamp cover (3), and the detection end of the temperature sensor (401) penetrates through the outer surface of the outer lamp cover (3) and extends into its interior.

4. The anti-scalding pet lamp according to claim 2, characterized in that: The upper through hole (403) is opened on the top of the outer lamp cover (3), and the upper through hole (403) is distributed in a ring at equal intervals with respect to the top surface of the outer lamp cover (3), and the inner wall of the bottom end of the upper through hole (403) extends into the interior of the outer lamp cover (3).

5. A scald-proof pet lamp according to claim 2, characterized in that: The exhaust fan (404) is embedded in the top surface of the outer lamp cover (3), and both the exhaust fan (404) and the temperature sensor (401) are electrically connected to the microcontroller (402) via wires.

6. The anti-scalding pet lamp according to claim 1, characterized in that: The outer lamp cover (3), upper support block (301) and lower support block (101) are all made of heat-resistant material, the inner lamp cover (1) is made of heat-conducting material, and there is a gap between the outer bottom of the inner lamp cover (1) and the inner bottom of the outer lamp cover (3).

7. A scald-proof pet lamp according to claim 1, characterized in that: The guide post (102) is fitted into the inner wall of the guide hole (302), the outer dimension of the friction block (103) is consistent with the diameter of the guide post (102), the friction block (103) rotates eccentrically with the top of the guide post (102) through an eccentric shaft, and the bottom surface of the friction block (103) is provided with a damping material layer to increase friction resistance.