Moxibustion cabin intelligent temperature control adjusting device
Through the adjustment mechanism and ignition mechanism of the intelligent temperature control device, dynamic balance of temperature and directional moxibustion are achieved in the moxibustion chamber, solving the problem that existing moxibustion chambers cannot adjust the heating intensity, and improving the pertinence and convenience of treatment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN DR MOXIBUSTION MEDICAL SCI & TECH CO LTD
- Filing Date
- 2025-09-05
- Publication Date
- 2026-06-09
AI Technical Summary
Existing moxibustion chambers cannot adjust the heating intensity of specific areas according to user needs, resulting in energy waste and possible discomfort. Furthermore, due to the fixed distance, they are prone to overheating or low efficiency.
It adopts an intelligent temperature control device, including an adjustment mechanism and an ignition mechanism. The opening and closing of the moving plate and the height adjustment of the ignition mechanism are controlled by electric control to achieve directional moxibustion. Combined with a temperature sensor, the temperature inside the chamber is monitored and controlled in real time.
It achieves dynamic temperature balance within the moxibustion chamber, ensuring it remains within a safe and effective range, thus improving the targetedness and convenience of treatment and avoiding excessive heat and energy waste.
Smart Images

Figure CN224341814U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of moxibustion chamber technology, specifically relating to an intelligent temperature control device for moxibustion chambers. Background Technology
[0002] Moxibustion, a traditional Chinese medicine therapy, uses the heat and pharmacological components released by burning mugwort to act on acupoints on the body, achieving effects such as warming the meridians, dispelling cold, and promoting qi circulation. It is widely used in daily health care and the treatment of chronic diseases. Moxibustion chambers, by placing the user's body in a closed or semi-closed chamber, utilize a built-in heating module to achieve the targeted release of mugwort energy. They offer advantages such as wide coverage, convenient operation, and no need for manual supervision, and are gradually being applied in TCM clinics, health centers, and home settings.
[0003] Existing moxibustion chambers generally adopt a "whole-body coverage" design. The heating modules of most moxibustion chambers are fixedly installed in common areas such as the back and waist of the chamber. They also use "whole-body start-stop" control logic, which cannot adjust the heating intensity of specific parts or activate individual areas according to user needs. Existing devices can only start the whole-body heating mode, which causes energy to be concentrated on non-target parts. This not only wastes the energy and electricity of the moxa, but may also cause discomfort due to prolonged heating of non-target parts. Moreover, most devices are prone to overheating or low efficiency due to the fixed distance.
[0004] Therefore, there is a need for an intelligent temperature control device for moxibustion chambers to solve the problems of existing technologies that cannot adjust the use of specific parts according to user needs and are prone to overheating or low efficiency due to fixed distance. Utility Model Content
[0005] The purpose of this invention is to provide an intelligent temperature control device for moxibustion chambers to solve the problems mentioned in the background art.
[0006] To achieve the above objectives, this utility model provides the following technical solution: an intelligent temperature control device for a moxibustion chamber, comprising a chamber body, a cover, a display screen, a perforated plate, an adjustment mechanism, an ignition mechanism, and a temperature sensor. The back of the cover is rotatably connected to the top of the chamber body. The display screen is located on the right side of the cover. A heating zone is formed on the inner top surface of the chamber body. The perforated plate is fixedly connected to the upper part of the heating zone. The adjustment mechanism is located below the perforated plate. The ignition mechanism is located below the adjustment mechanism. The temperature sensors are evenly distributed below the adjustment mechanism.
[0007] It should be noted in the solution that the adjustment mechanism consists of a storage cavity, an electric push rod, a sealing ring, and a moving plate. The storage cavities are symmetrically opened on the front and rear sides of the heating zone. The electric push rod is uniformly and fixedly connected to the front and rear sides of the cabin. The sealing ring is set between the extended end of the electric push rod and the storage cavity.
[0008] It is further worth noting that the movable plate is fixedly connected to the extended end of the electric push rod, and the electric push rod is electrically connected to an external controller.
[0009] Furthermore, it should be noted that the temperature sensor is fixedly connected inside the heating zone and is correspondingly positioned below the moving plate. The temperature sensor is electrically connected to an external controller.
[0010] In a preferred embodiment, the ignition mechanism comprises a mounting plate, a mounting frame, a motor, a bidirectional lead screw, a push plate, a slider, a support rod, rollers, a connecting block, a bearing frame, and a ceramic ignition column. The mounting plate is fixedly connected to the lower interior of the heating zone, and the interior of the mounting plate is uniformly provided with through slots. The mounting frame is fixedly connected to the lower part of the through slots, the motor is fixedly connected to the front side of the mounting frame, and the bidirectional lead screw is fixedly connected to the output end of the motor and rotatably connected to the interior of the mounting frame.
[0011] In a preferred embodiment, the push plate is symmetrically threaded to the front and rear sides of the bidirectional lead screw, the slider is symmetrically fixed to the left and right sides of the push plate, and the slider is slidably connected to the inside of the mounting frame.
[0012] In a preferred embodiment, there are two support rods arranged alternately, and the rollers are symmetrically fixed to the left and right sides of the bottom end of the support rods, and the rollers are rotatably connected inside the mounting frame.
[0013] In a preferred embodiment, the connecting block is rotatably connected to the top of the support rod, the bearing frame is fixedly connected to the top of the connecting block, and the ceramic ignition column is uniformly fixedly connected to the inside of the bearing frame.
[0014] Compared with the prior art, the intelligent temperature control device for moxibustion chamber provided by this utility model has at least the following beneficial effects:
[0015] (1) By setting up an ignition mechanism and a temperature sensor, the problem inside the chamber can be monitored in real time. By adjusting the height of the ignition mechanism, the temperature inside the chamber can be dynamically balanced and stabilized within the safe and effective range set by the user. This completely solves the problem that traditional moxibustion is prone to overheating or low efficiency due to fixed distance.
[0016] (2) Through the set adjustment mechanism, the opening and closing of the electric control moving plate can be precisely controlled like a "grating" to achieve targeted moxibustion. Users can switch moxibustion sites without moving their bodies, which improves the targeting and convenience of the treatment. Attached Figure Description
[0017] Figure 1 This is a three-dimensional structural schematic diagram of the present invention;
[0018] Figure 2 This is a cross-sectional structural diagram of the present invention;
[0019] Figure 3 For the present utility model Figure 2 Schematic diagram of the cross-sectional structure of the middle AA section;
[0020] Figure 4 This is a schematic diagram of the internal structure of the ignition mechanism of this utility model.
[0021] In the diagram: 1. Cabin; 2. Cabin cover; 3. Display screen; 4. Transparent panel; 5. Adjustment mechanism; 6. Ignition mechanism; 7. Temperature sensor; 501. Storage cavity; 502. Electric push rod; 503. Sealing ring; 504. Moving plate; 601. Mounting plate; 602. Through groove; 603. Mounting frame; 604. Motor; 605. Two-way lead screw; 606. Push plate; 607. Slider; 608. Support rod; 609. Roller; 610. Connecting block; 611. Bearing frame; 612. Ceramic ignition column. Detailed Implementation
[0022] The present invention will be further described below with reference to the embodiments.
[0023] Please see Figure 1-4 This utility model provides an intelligent temperature control device for an moxibustion chamber, including a chamber body 1, a cover 2, a display screen 3, a perforated plate 4, an adjustment mechanism 5, an ignition mechanism 6, and a temperature sensor 7. The back of the cover 2 is rotatably connected to the top of the chamber body 1. The display screen 3 is located on the right side of the cover 2. A heating zone is provided on the top surface inside the chamber body 1. The perforated plate 4 is fixedly connected to the upper part of the heating zone. The adjustment mechanism 5 is located below the perforated plate 4. The ignition mechanism 6 is located below the adjustment mechanism 5. The temperature sensor 7 is evenly distributed below the adjustment mechanism 5.
[0024] Further as Figure 1 , Figure 2 and Figure 3 As shown, it is worth noting that the adjustment mechanism 5 consists of a storage cavity 501, an electric push rod 502, a sealing ring 503, and a moving plate 504. The storage cavities 501 are symmetrically opened on the front and rear sides of the heating zone. The electric push rod 502 is evenly and fixedly connected to the front and rear sides of the cabin 1. The sealing ring 503 is set between the extended end of the electric push rod 502 and the storage cavity 501.
[0025] The sealing ring 503 ensures that the interior of the cabin remains sealed during the movement of the mobile panel, preventing smoke leakage.
[0026] Further as Figure 1 , Figure 2 and Figure 3As shown, it is worth noting that the movable plate 504 is fixedly connected to the extended end of the electric push rod 502, and the electric push rod 502 is electrically connected to the external controller.
[0027] By controlling the extension and retraction of the electric actuators at different positions, the movable plate can be partially opened or closed, thereby changing the distribution and size of the heat radiation holes. For example, by opening only the middle section of the movable plate, the heat will be concentrated only on the waist area of the body.
[0028] Further as Figure 1 , Figure 2 and Figure 3 As shown, it is worth noting that the temperature sensor 7 is fixedly connected inside the heating zone and is correspondingly positioned below the movable plate 504. The temperature sensor 7 is electrically connected to the external controller.
[0029] As can be seen from the above working process, by adjusting the mechanism 5 and electrically controlling the opening and closing of the moving plate 504, the area of heat radiation can be precisely controlled like a "grating" to achieve directional moxibustion. Users can switch moxibustion sites without moving their bodies, which improves the targeting and convenience of the treatment.
[0030] Further as Figure 1 , Figure 2 and Figure 4 As shown, it is worth noting that the ignition mechanism 6 consists of a mounting plate 601, a mounting frame 603, a motor 604, a bidirectional lead screw 605, a push plate 606, a slider 607, a support rod 608, a roller 609, a connecting block 610, a bearing frame 611, and a ceramic ignition column 612. The mounting plate 601 is fixedly connected to the lower interior of the heating zone. The interior of the mounting plate 601 is evenly provided with through slots 602. The mounting frame 603 is fixedly connected to the lower part of the through slots 602. The motor 604 is fixedly connected to the front side of the mounting frame 603. The bidirectional lead screw 605 is fixedly connected to the output end of the motor 604, and the bidirectional lead screw 605 is rotatably connected to the interior of the mounting frame 603.
[0031] Further as Figure 1 , Figure 2 and Figure 4 As shown, it is worth noting that the push plate 606 is symmetrically threaded to the front and rear sides of the double-acting screw 605, the slider 607 is symmetrically fixed to the left and right sides of the push plate 606, and the slider 607 is slidably connected to the inside of the mounting frame 603. There are two support rods 608, which are staggered. The rollers 609 are symmetrically fixed to the bottom left and right sides of the support rods 608, and the rollers 609 are tumbledly connected to the inside of the mounting frame 603.
[0032] The push plate 606 moves towards the center, which pushes the staggered support rods 608, causing the rollers 609 at their bottom to roll along the mounting frame. This gradually lifts the support rods from an inclined state to a more vertical state. This process is like a "scissor lift", which smoothly raises the top of the load-bearing frame 611 connected by the connecting block 610.
[0033] Further as Figure 1 , Figure 2 and Figure 4 As shown, it is worth noting that the connecting block 610 is rotatably connected to the top of the support rod 608, the bearing frame 611 is fixedly connected to the top of the connecting block 610, and the ceramic ignition column 612 is uniformly fixedly connected to the inside of the bearing frame 611.
[0034] This solution operates as follows: During use, the user opens the cover 2, places the moxibustion material on the ceramic ignition column 612 of the ignition mechanism 6, closes the cover 2, and sets the target temperature and moxibustion area via the display screen 3. Then, a signal is transmitted to an external controller, which sends a signal to the electric push rod 502, moving the area's movable plate 504 into the storage cavity 501. By controlling the extension and retraction of the electric push rod 502 at different positions, the movable plate 504 can be partially opened or closed, thereby changing the distribution and size of the heat radiation holes. For example, by opening only the middle section of the movable plate, the heat is concentrated only on the waist area of the body.
[0035] Then the ceramic ignition column 612 ignites the moxa stick, the external controller starts the motor 604, drives the bidirectional lead screw 605 to rotate, and drives the push plates 606 on both sides to move towards each other. The push plates 606 slide in the mounting frame 603 through the slider 607, and simultaneously push the bottom end of the support rod 608 to move inward. The top end of the support rod 608 drives the bearing frame 611 to rise through the connecting block 610, so that the height of the bearing frame 611 can be adjusted.
[0036] Temperature sensor 7 starts to monitor the temperature of the heating zone in real time and transmits the data to the external controller. If the temperature is too low, the controller instructs motor 604 to rotate forward, causing ignition mechanism 6 to raise the moxa stick closer to the human body and increase the heat radiation intensity. If the temperature is too high, the controller instructs motor 604 to rotate in reverse, causing ignition mechanism 6 to lower the moxa stick away from the human body and reduce the heat radiation intensity.
[0037] Once the preset moxibustion time is reached, the device will automatically stop, the ignition mechanism 6 will drop to its lowest point to ensure that the moxa stick is completely away from the human body and the internal structure of the chamber, and the power supply will be cut off.
[0038] In summary: The ignition mechanism 6 and temperature sensor 7 enable real-time monitoring of the cabin environment. By adjusting the height of the ignition mechanism 6, the cabin temperature can be dynamically balanced and stabilized within a safe and effective range set by the user. This completely solves the problem of traditional moxibustion being prone to overheating or low efficiency due to fixed distance. The adjustment mechanism 5 electrically controls the opening and closing of the moving plate 504, allowing for precise control of the heat radiation area like a "grating," enabling directional moxibustion. Users can switch treatment sites without moving their bodies, improving the targeted nature and convenience of the treatment.
Claims
1. A smart temperature control device for a moxibustion chamber, comprising a chamber body (1), a chamber cover (2), a display screen (3), a transparent plate (4), an adjustment mechanism (5), an ignition mechanism (6), and a temperature sensor (7), characterized in that: The back of the hatch (2) is rotatably connected to the top of the cabin (1). The display screen (3) is located on the right side of the hatch (2). A heating zone is provided on the top surface inside the cabin (1). The through plate (4) is fixedly connected to the top inside the heating zone. The adjustment mechanism (5) is located below the through plate (4). The ignition mechanism (6) is located below the adjustment mechanism (5). The temperature sensor (7) is evenly arranged below the adjustment mechanism (5).
2. The intelligent temperature control and regulation device for a moxibustion chamber according to claim 1, characterized in that: The adjustment mechanism (5) consists of a storage cavity (501), an electric push rod (502), a sealing ring (503), and a moving plate (504). The storage cavities (501) are symmetrically opened on the front and rear sides of the heating zone. The electric push rod (502) is uniformly fixedly connected to the front and rear sides of the cabin (1). The sealing ring (503) is located between the extended end of the electric push rod (502) and the storage cavity (501).
3. The intelligent temperature control and regulation device for a moxibustion chamber according to claim 2, characterized in that: The movable plate (504) is fixedly connected to the extended end of the electric push rod (502), and the electric push rod (502) is electrically connected to an external controller.
4. The intelligent temperature control and regulation device for a moxibustion chamber according to claim 3, characterized in that: The temperature sensor (7) is fixedly connected inside the heating zone and is correspondingly positioned below the movable plate (504). The temperature sensor (7) is electrically connected to an external controller.
5. The intelligent temperature control and regulation device for a moxibustion chamber according to claim 4, characterized in that: The ignition mechanism (6) consists of a mounting plate (601), a mounting frame (603), a motor (604), a bidirectional lead screw (605), a push plate (606), a slider (607), a support rod (608), a roller (609), a connecting block (610), a bearing frame (611), and a ceramic ignition column (612). The mounting plate (601) is fixedly connected to the lower interior of the heating zone. The mounting plate (601) has uniformly opened through slots (602) inside. The mounting frame (603) is fixedly connected to the lower part of the through slots (602). The motor (604) is fixedly connected to the front side of the mounting frame (603). The bidirectional lead screw (605) is fixedly connected to the output end of the motor (604), and the bidirectional lead screw (605) is rotatably connected to the interior of the mounting frame (603).
6. The intelligent temperature control and regulation device for a moxibustion chamber according to claim 5, characterized in that: The push plate (606) is symmetrically threaded to the front and rear sides of the double-acting screw (605), and the slider (607) is symmetrically fixed to the left and right sides of the push plate (606), and the slider (607) is slidably connected to the inside of the mounting frame (603).
7. The intelligent temperature control and regulation device for a moxibustion chamber according to claim 6, characterized in that: There are two support rods (608) arranged alternately. The rollers (609) are symmetrically fixed to the left and right sides of the bottom end of the support rods (608) and are tumbling inside the mounting frame (603).
8. The intelligent temperature control and regulation device for a moxibustion chamber according to claim 7, characterized in that: The connecting block (610) is rotatably connected to the top of the support rod (608), the bearing frame (611) is fixedly connected above the connecting block (610), and the ceramic ignition column (612) is uniformly fixedly connected inside the bearing frame (611).