A device for smoldering processing of Tibetan medicine

By designing a Tibetan medicine simmering and processing device with air-drying components and a temperature control system, the problems of uneven air-drying and poor temperature control in traditional devices have been solved. This has achieved stability in the Tibetan medicine air-drying process and improved the quality of the medicinal materials, thus promoting the healthy development of the Tibetan medicine industry.

CN224470671UActive Publication Date: 2026-07-07QINGHAI UNIV FOR NATITIES

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
QINGHAI UNIV FOR NATITIES
Filing Date
2025-07-21
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Traditional Tibetan medicine processing equipment lacks air-drying capabilities, resulting in uneven or excessive drying of medicinal materials, poor temperature control, which affects the quality of medicinal materials and causes loss of components, increases production costs, and hinders the development of the industry.

Method used

A Tibetan medicine simmering and processing device was designed, which includes an air-drying component and a temperature control system. The air-drying temperature and airflow rate are regulated by the coordinated action of a fan and a heating tube. Combined with an insulation layer and a sealing structure, a stable air-drying environment is ensured.

Benefits of technology

It has achieved precise control of temperature and wind speed during the air-drying process of Tibetan medicine, which has improved the stability of medicinal material quality, reduced the loss of medicinal components, lowered production costs, and enhanced the processing effect of Tibetan medicine and the reliability of the industry's healthy development.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a kind of Tibetan medicine stewing processing device, belong to processing device technical field, including processing frame, instrument box is equipped on processing frame, multiple groups of placing grooves are set in processing frame one end, air bellow is equipped on multiple groups of placing grooves, air bellow is equipped with the air drying assembly for air drying Tibetan medicine in, air drying assembly includes temperature rising box, heating pipe is equipped in temperature rising box, filter box is equipped on one side of temperature rising box, first sundry intercepting block and air filter cotton are equipped on filter box, cover is equipped on temperature rising box and filter box, multiple groups of breathable holes are set in multiple groups of covers and temperature rising box and filter box, one side of one group of covers is equipped with fan, protection plate is equipped on air bellow, controller is equipped on instrument box, fan and controller are electrically connected. The device is set by the cooperation of fan and heating pipe, can control temperature and air flow rate in Tibetan medicine air drying processing process, heating pipe can promote air temperature in temperature rising box, fan is then pushed to flow through heating and filtering air, completes processing.
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Description

Technical Field

[0001] This utility model belongs to the field of processing equipment technology, and more specifically, it relates to a Tibetan medicine simmering and processing device. Background Technology

[0002] In the field of Tibetan medicine processing, specific equipment is often required for the processing of Tibetan medicines. During the production of Tibetan medicine, in order to ensure its quality and efficacy, various methods are often used to process the medicinal materials. However, traditional equipment lacks the function of air drying, leading to uneven drying or over-drying of the medicinal materials due to a lack of control over the temperature, cleanliness, and flow rate of the drying air. Furthermore, in the simmering stage, if the temperature cannot be controlled, the complex processing environment can easily lead to the loss of medicinal components, resulting in a decline in the quality of the medicinal materials. This not only affects the clinical efficacy of Tibetan medicine, preventing it from fully realizing its medicinal value, but also increases production costs due to waste and unstable quality, thus hindering the healthy development of the Tibetan medicine industry. Utility Model Content

[0003] To address the aforementioned technical problems, this utility model provides a Tibetan medicine stewing and processing device, which solves the technical problem that traditional devices in the prior art do not have a drying function.

[0004] The purpose and efficacy of this invention's Tibetan medicine simmering and processing device are achieved through the following specific technical means:

[0005] A Tibetan medicine smoldering processing device includes a processing rack with an instrument box on it. Multiple placement slots are provided at one end of the rack, and bellows are installed on each slot. A drying assembly for air-drying Tibetan medicine is located inside each bellows. The drying assembly includes a heating chamber with a heating tube inside. A filter box is located on one side of the heating chamber, and a first debris interception block and air filter cotton are provided on the filter box. Both the heating chamber and the filter box are equipped with covers. Multiple sets of ventilation holes are provided on the covers, the heating chamber, and the filter box. A fan is located on one side of one set of covers. A protective plate is provided on the bellows. A controller is located on the instrument box, and the fan is electrically connected to the controller.

[0006] According to a preferred embodiment, a limiting plate is provided on one side of the processing frame, one end of the limiting plate passes through the bellows, a temperature controller is provided on the instrument box, the temperature controller is connected to the heating tube, and an anti-scalding frame is provided on the processing frame, the anti-scalding frame is located on the top of the bellows.

[0007] According to a preferred embodiment, the processing frame is provided with a lower processing box, and the lower processing box is provided with an upper processing box. The lower processing box is connected to the processing frame by bolts, and the inner walls of both the lower processing box and the upper processing box are provided with heat insulation layers.

[0008] According to a preferred embodiment, a bearing block is provided on one of the sets of insulation layers, a connecting block is provided between the upper processing box and the lower processing box, and a sealing ring is provided between the air box and the connecting block.

[0009] According to a preferred embodiment, a drive shaft is provided on the connecting block and the bearing block, one end of the drive shaft is provided on the bellows, the bearing block is connected to one of the insulation layers, and the bellows and the instrument box are both provided with perforations.

[0010] According to a preferred embodiment, the instrument box is equipped with a motor, the motor shaft is connected to the drive shaft via a belt, the belt is located on the perforation, the motor is electrically connected to the controller, and a set of the insulation layer, the support block and the upper processing box are all provided with exhaust holes.

[0011] According to a preferred embodiment, a medicinal material loading box is sleeved on the drive shaft, and multiple sets of connecting posts are passed through the medicinal material loading box. Each set of connecting posts is fitted with a spill prevention cover, and the spill prevention covers are connected to the medicinal material loading box by pins. Each set of spill prevention covers and the medicinal material loading box has multiple sets of heat-receiving holes.

[0012] Compared with the prior art, the present invention has the following beneficial effects:

[0013] 1. This device, through the coordinated setup of a fan and a heating element, allows users to control the temperature and airflow during the air-drying process of Tibetan medicine. The heating element raises the air temperature inside the heating chamber, while the fan drives the heated and filtered airflow. Together, they ensure a suitable and stable air-drying environment within the chamber. After starting the device, users can adjust the heating power of the heating element and the fan speed using the controller on the instrument box, based on the characteristics and processing requirements of different Tibetan medicines. This allows for the regulation of temperature and airflow, enhancing the device's ability to meet the needs of various Tibetan medicine processing techniques.

[0014] 2. When using this device, the user can set the heating temperature of the heating tube by operating the temperature controller on the instrument box, so that the user can create a suitable heating environment according to the characteristics of Tibetan medicine, which improves the temperature control of the device. Then, through the setting of the connecting block between the upper and lower processing boxes and the sealing ring between the bellows and the connecting block, the device can prevent heat and airflow loss, maintain the stability of the internal environment, provide users with more reliable processing conditions, reduce the interference of external factors on the processing effect, and improve the performance of the device in ensuring the stability of the processing process. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the assembled structure of this utility model;

[0016] Figure 2 This is a schematic diagram of the disassembled structure of this utility model;

[0017] Figure 3 This is a front view of the present invention;

[0018] Figure 4 This is a schematic diagram of the internal structure of the medicinal material loading box of this utility model;

[0019] Figure 5 This is a schematic diagram of the air-drying component of this utility model.

[0020] In the diagram, the correspondence between component names and drawing numbers is as follows:

[0021] 11. Processing rack; 12. Instrument box; 13. Bellows; 14. Heating chamber; 15. Heating tube; 16. Filter box; 17. First debris interception block; 18. Air filter cotton; 19. Partition cover; 21. Fan; 22. Protective plate; 23. Controller; 24. Limit plate; 25. Temperature controller; 26. Lower processing box; 27. Upper processing box; 28. Insulation layer; 29. ​​Bearing block; 31. Connecting block; 32. Sealing ring; 33. Motor; 34. Herb loading box; 35. Connecting column; 36. Anti-spill cover; 37. Anti-scalding frame. Detailed Implementation

[0022] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples. The following examples are used to illustrate the technical solution of this utility model, but should not be used to limit the scope of protection of this utility model. Example:

[0023] like Figures 1 to 2As shown, this utility model provides a Tibetan medicine simmering and processing device, including a processing rack 11, which is the basic support structure and load-bearing component of the entire device. The processing rack 11 is equipped with an instrument box 12, which centrally houses various control instruments. The controller 23 within the instrument box is the core control unit for the device's operation, issuing commands to other components to regulate the device's operating status. This controller 23 can be an FX5U-64MR controller. A blower 21 is electrically connected to the controller 23. The controller 23 controls the operation of the blower 21 according to the actual processing requirements, adjusting the blower 21's speed and the airflow speed within the bellows 13 to provide the necessary airflow for the Tibetan medicine's air-drying processing. Multiple placement slots are provided at one end of the processing rack 11, providing placement positions for the bellows 13. The bellows 13 are located within these placement slots and serve as the air-drying processing area for the Tibetan medicine. The internal air-drying components determine the air-drying effect of the Tibetan medicine.

[0024] The drying assembly inside the air box 13 includes a heating chamber 14, which contains a heating tube 15 that raises the air temperature. A filter box 16 is located on one side of the heating chamber 14. The filter box 16 is equipped with a first debris interception block 17 and air filter cotton 18. The first debris interception block 17 blocks larger debris in the air, and the air filter cotton 18 filters the air, ensuring that the air entering the air box 13 and acting on the Tibetan medicine is clean. Both the heating chamber 14 and the filter box 16 are equipped with partitions 19. Multiple sets of ventilation holes are provided on the partitions 19, the heating chamber 14, and the filter box 16 to ensure air circulation between them. A fan 21 is located on one side of one set of partitions 19, which circulates the air within the air box 13, allowing the air heated by the heating chamber 14 and filtered by the filter box 16 to blow on the Tibetan medicine, achieving the drying effect. The air box 13 is equipped with a protective plate 22 to protect the internal components.

[0025] A limiting plate 24 is installed on one side of the processing rack 11, and one end of the limiting plate 24 passes through the bellows 13, which limits the bellows 13 on the processing rack 11 to ensure the structural integrity of the device. The instrument box 12 is equipped with a temperature controller 25, which is connected to the heating tube 15 to control the heating temperature of the heating tube 15. Depending on the different Tibetan medicine processing requirements, the user can select a TM221CE16R controller for the temperature controller 25. The temperature value is set through the temperature controller 25, and the heating tube 15 works according to the instructions to regulate the air drying temperature of Tibetan medicine. The processing rack 11 is equipped with an anti-scalding frame 37, which is located on the top of the bellows 13 to prevent the operator from being burned by contact with the top of the bellows 13. The processing rack 11 is equipped with a lower processing box 26, and the lower processing box 26 is equipped with an upper processing box 27. The lower processing box 26 is connected to the processing rack 11 by bolts, which facilitates disassembly and installation and makes the device easy to maintain and repair. When loading materials, the upper processing box 27 can be opened. After loading, the upper processing box 27 can be closed. The inner walls of both the lower processing box 26 and the upper processing box 27 are equipped with a heat insulation layer 28. The heat insulation layer 28 reduces heat loss and maintains a stable internal temperature of the processing box, providing a temperature environment for the slow-cooking processing of Tibetan medicine.

[0026] One set of insulation layers 28 is equipped with a support block 29, which supports and positions the drive shaft and other components. A connecting block 31 is provided between the upper processing box 27 and the lower processing box 26, connecting the two boxes. A sealing ring 32 is provided between the bellows 13 and the connecting block 31 to prevent air leakage in the bellows 13, ensuring stable air pressure and temperature inside the bellows 13 and improving the drying and processing effect of Tibetan medicine. A drive shaft passes through the connecting block 31 and the support block 29, with one end of the drive shaft passing through the bellows 13 to transmit power from the motor 33 to the components inside the bellows 13. The support block 29 is connected to one set of insulation layers 28 to enhance the installation stability of the drive shaft. Both the bellows 13 and the instrument box 12 have through holes for a belt to pass through, allowing the motor 33 to be connected to the drive shaft via a belt. The instrument box 12 is equipped with a motor 33, and the end of the motor 33 is connected to the drive shaft via a belt-connected through hole, providing power for the operation of the device.

[0027] The motor 33 is electrically connected to the controller 23, which controls the start, stop, and speed of the motor 33, and regulates the rotation speed of the transmission shaft to meet the speed requirements for stirring, turning, and other operations during Tibetan medicine processing. One set of insulation layers 28, the support block 29, and the upper processing box 27 all have exhaust holes to discharge processing waste gases, keeping the air inside the processing box fresh and preventing waste gases from affecting the quality of Tibetan medicine processing. A medicinal material loading box 34 is fitted onto the transmission shaft, and the medicinal material loading box 34 holds the Tibetan medicine. Multiple sets of connecting posts 35 pass through the medicinal material loading box 34, providing connection points for the installation of the anti-spill cover 36. The anti-spill cover 36 is fitted onto the multiple sets of connecting posts 35 and is connected to the medicinal material loading box 34 by pins to prevent the medicinal material from spilling during processing and ensure the integrity of the processing. Both the anti-spill cover 36 and the medicinal material loading box 34 have multiple sets of heating holes, allowing the medicinal material to contact the hot air inside the bellows 13, achieving uniform heating and improving the processing effect.

[0028] like Figures 2 to 5As shown, when using this device, the processing frame 11 serves as the basic support and load-bearing component, providing a stable platform for the device. The instrument box 12 on top houses the control instruments, with the controller 23 inside serving as the control core. Electrically connected to the blower 21, the controller adjusts the blower speed according to actual processing needs, changing the airflow speed within the bellows 13 to create suitable airflow for drying Tibetan medicine. Multiple placement slots at one end of the processing frame 11 provide a place for the bellows 13, which is the drying area for Tibetan medicine. The internal drying components determine the drying effect. All components inside the drying box 13, except for the heating tube 15 and the blower 21, have ventilation holes. Within the drying components, the heating tube 15 in the heating chamber 14 raises the air temperature. The filter box 16 next to the heating chamber 14 uses a first debris interception block 17 to block large debris and an air filter cotton 18 to filter, ensuring that the air entering the airbox 13 is clean. Both are equipped with vented covers 19 to allow smooth airflow between the components. A fan 21 on one side of the cover 19 drives air circulation, allowing the heated and filtered air to evenly blow on the Tibetan medicine, achieving air drying. The protective plate 22 on the airbox 13 protects the internal components and extends their service life. The limiting plate 24 on one side of the processing rack 11 passes through the airbox 13, limiting the position of the airbox 13 and ensuring the stability of the device structure. The temperature controller 25 inside the instrument box 12 is connected to the heating tube 15, allowing the user to set the temperature as needed and adjust the air drying temperature of the Tibetan medicine. The anti-scalding frame 37 on the top of the airbox 13 prevents burns to the operator. The processing rack 11 has a lower processing box 26 and an upper processing box 27. The lower processing box 26 is bolted to the processing rack 11 for easy disassembly and maintenance. The insulation layer 28 on the inner walls of the two chambers reduces heat loss, maintains a stable internal temperature, and provides a suitable environment for processing. The support block 29 on the insulation layer 28 supports and positions components such as the drive shaft. The connecting block 31 between the upper and lower processing chambers ensures their coordinated operation. The sealing ring 32 between the bellows 13 and the connecting block 31 prevents air leakage, stabilizes the air pressure and temperature inside the bellows, and improves the drying effect. The drive shaft between the connecting block 31 and the support block 29 passes through the bellows 13 at one end, transmitting power to the motor 33. The support block 29 is connected to the insulation layer 28, reinforcing the installation of the drive shaft. The perforations in the bellows 13 and the instrument box 12 allow a belt to pass through, connecting the motor 33 to the drive shaft. The motor 33 of the instrument box 12 transmits power to the drive shaft via a belt; it is electrically connected to the controller 23 and is controlled by the controller 23 to meet the speed requirements of different processing operations. Exhaust gases are discharged through the exhaust ports of the insulation layer 28, the support block 29, and the upper processing chamber 27, keeping the air inside the chamber fresh and ensuring processing quality. The herb loading box 34, which is fitted with a drive shaft, holds Tibetan medicine. A connecting post 35 on the box is used to install a spill-proof cover 36. The two are connected by a pin to prevent the medicine from spilling. The heating holes of the spill-proof cover 36 and the herb loading box 34 allow the medicine to be heated evenly, improving the processing effect.

[0029] The specific usage and function of this embodiment are as follows:

[0030] When using this device, first install the lower processing box 26 onto the processing frame 11 with bolts, then place the upper processing box 27 on top. The inner wall insulation layer 28 reduces heat loss. Place the bellows 13 in the slot at one end of the processing frame 11, and use the limiting plate 24 to limit the bellows 13 to ensure structural stability. Check the controller 23, temperature controller 25, and electrical connections of all components inside the instrument box 12. Place the Tibetan medicine into the medicine loading box 34, install the spill-proof cover 36 using the connecting column 35 and the pin, and start the device. The fan 21 filters the air through the filter box 16, heats it through the heating box 14, and then it enters the bellows 13. The temperature controller 25 controls the heating tube 15 to adjust the temperature. The motor 33 drives the transmission shaft via a belt, causing the medicine loading box 34 to rotate, achieving uniform air drying. The temperature controller 25 sets the simmering temperature, the heating tube 15 operates, and the insulation layer 28 maintains a stable temperature. Once processing is complete, turn off the equipment and remove the medicine after cooling. The anti-scalding frame 37 prevents burns.

[0031] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. It is obvious to those skilled in the art that this utility model is not limited to the details of the above exemplary embodiments.

Claims

1. A Tibetan medicine simmering and processing device, comprising a processing rack (11), characterized in that: The processing rack (11) is provided with an instrument box (12). One end of the processing rack (11) is provided with multiple sets of placement slots. Each set of placement slots is provided with a bellows (13). The bellows (13) contains a drying component for drying Tibetan medicine. The air drying assembly includes a heating box (14), a heating tube (15) is provided inside the heating box (14), a filter box (16) is provided on one side of the heating box (14), a first debris interception block (17) and air filter cotton (18) are provided on the filter box (16), and a partition cover (19) is provided on both the heating box (14) and the filter box (16). Multiple sets of ventilation holes are opened on the partition cover (19), the heating box (14) and the filter box (16), and a fan (21) is provided on one side of one set of partition cover (19). A protective plate (22) is provided on the air box (13), and a controller (23) is provided on the instrument box (12). The fan (21) and the controller (23) are electrically connected.

2. The Tibetan medicine smoldering processing device according to claim 1, characterized in that: A limiting plate (24) is provided on one side of the processing rack (11), and one end of the limiting plate (24) passes through the bellows (13). A temperature controller (25) is provided on the instrument box (12), and the temperature controller (25) is connected to the heating tube (15). An anti-scalding frame (37) is provided on the processing rack (11), and the anti-scalding frame (37) is located on the top of the bellows (13).

3. The Tibetan medicine smoldering processing device according to claim 1, characterized in that: The processing rack (11) is provided with a lower processing box (26), and the lower processing box (26) is provided with an upper processing box (27). The lower processing box (26) is connected to the processing rack (11) by bolts. The inner walls of the lower processing box (26) and the upper processing box (27) are both provided with a heat insulation layer (28).

4. The Tibetan medicine smoldering processing device according to claim 3, characterized in that: One of the insulation layers (28) is provided with a support block (29), a connecting block (31) is provided between the upper processing box (27) and the lower processing box (26), and a sealing ring (32) is provided between the bellows (13) and the connecting block (31).

5. The Tibetan medicine smoldering processing device according to claim 4, characterized in that: A drive shaft is provided on the connecting block (31) and the bearing block (29). One end of the drive shaft is provided on the bellows (13). The bearing block (29) is connected to one of the insulation layers (28). Both the bellows (13) and the instrument box (12) have perforations.

6. The Tibetan medicine smoldering processing device according to claim 5, characterized in that: The instrument box (12) is equipped with a motor (33), the shaft end of the motor (33) is connected to the transmission shaft by a belt, the belt is located on the perforation, the motor (33) is electrically connected to the controller (23), and exhaust holes are opened on a set of the insulation layer (28), the bearing block (29) and the upper processing box (27).

7. The Tibetan medicine smoldering processing device according to claim 6, characterized in that: A medicinal material loading box (34) is fitted on the drive shaft. Multiple sets of connecting posts (35) are installed on the medicinal material loading box (34). Each set of connecting posts (35) is fitted with a spill prevention cover (36). The multiple sets of spill prevention covers (36) are connected to the medicinal material loading box (34) by pins. Multiple sets of heat-receiving holes are opened on both the multiple sets of spill prevention covers (36) and the medicinal material loading box (34).