A drying device based on tea processing

By using a turning and adjusting device, the turning device turns the bottom of the tea leaves, and the adjusting device guides the flow of hot air, thus solving the problem that the bottom of the tea leaves cannot come into contact with the hot air, and achieving uniform and efficient drying of the tea leaves.

CN224470682UActive Publication Date: 2026-07-07YI BIN JIU DU ECOLOGICAL TEA IND CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YI BIN JIU DU ECOLOGICAL TEA IND CO LTD
Filing Date
2025-08-05
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

During the drying process, the tea leaves at the bottom cannot fully contact the hot air, resulting in low drying efficiency.

Method used

A turning device and an adjusting device were designed. The turning device turns the tea leaves by rotating a rod and a worm gear mechanism. The adjusting device guides the hot air by a guide plate, so that the tea leaves at the bottom turn and come into full contact with the hot air. The adjusting device adjusts the direction of the hot air flow by a push-pull rod and a linkage mechanism to ensure that the hot air is evenly distributed.

Benefits of technology

This improves the uniformity and efficiency of tea drying, ensuring that the tea leaves at the bottom can also fully contact the hot air, thus enhancing the overall drying effect.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of based on tea processing's drying device, belong to tea drying technical field, including box and control module, the box inner wall is connected with multiple supporting blocks, and same layer multiple supporting blocks are connected with same material receiving plate between, the box bottom is installed with drive module, and drive module output end is connected with rotating rod;In the utility model, drive module moves supporting plate by rotating rod and connecting sleeve, and then make supporting plate move gear by fixed block, so that gear moves at the top of gear ring, and then make gear ring drive gear rotate, so that gear rotates by worm drive worm gear, worm gear rotates by rotating shaft drive rotating plate, rotating plate drive turnover frame rotation, so that turnover frame is to the tea on the top of material receiving plate and is turned over, so that bottom tea moves outward by turning, and then make bottom tea and hot air fully contact, guarantee tea overall drying effect.
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Description

Technical Field

[0001] This utility model belongs to the field of tea drying technology, and in particular relates to a drying device based on tea processing. Background Technology

[0002] Tea drying machines are devices that use the principle of hot air circulation to quickly remove moisture from tea leaves. By precisely controlling the temperature and air speed, they preserve the original aroma and taste of the tea. Tea drying machines use hot air circulation technology to heat the air and make it flow through the tea leaves to achieve rapid drying. In addition, tea drying machines are equipped with an intelligent temperature control system that can automatically adjust the temperature according to the type of tea to avoid high temperature damage to the quality of the tea.

[0003] Chinese utility model application No. 202421392611.0 discloses a tea drying machine, including drying boxes arranged on both sides. Each drying box has at least one support rod with a drying plate on it. A heating element is embedded in the inner wall of the drying box. An exhaust fan is fixedly connected to the drying box, with its input end extending into the drying box and its output end fixedly connected to a first connecting pipe. The other end of the first connecting pipe is fixedly connected to the output end of the exhaust fan on the other drying box. A second connecting pipe is fixedly connected between the bottoms of the two drying boxes. Electromagnetic valves are installed on the first and second connecting pipes. However, in actual use, because the tea leaves are stacked on top of the mesh, the tea leaves at the bottom cannot fully contact the hot air during drying, resulting in lower drying efficiency and affecting the overall drying effect of the tea. Utility Model Content

[0004] The purpose of this invention is to provide a drying device based on tea processing to solve the problem that the bottom tea leaves cannot fully contact the hot air during the drying process, resulting in low drying efficiency.

[0005] To achieve the above objectives, the present invention adopts the following technical solution: a drying device based on tea processing, comprising a box and a control module. Multiple support blocks are connected to the inner wall of the box, and the same material support plate connects the multiple support blocks on the same layer. A drive module is installed at the bottom of the box, and a rotating rod is connected to the output end of the drive module. A flipping device is connected to the outer wall of the rotating rod. The bottom of the control module is connected to the top of the box. The flipping device includes a connecting sleeve, and a support plate is connected to the outer wall of the connecting sleeve. Multiple bearings are embedded in the support plate, and a rotating shaft is rotatably connected within the bearings. A rotating plate is connected to the bottom of the rotating shaft, and a flipping frame is connected to the bottom of the rotating plate.

[0006] As a further description of the above technical solution:

[0007] Furthermore, a worm gear is connected to the top of the rotating shaft, and the outer walls of multiple worm gears are meshed with the same worm. One end of the worm is connected to a gear, and the outer wall of the gear is meshed with a toothed ring. Two fixing blocks are connected to the top of the support plate.

[0008] As a further description of the above technical solution:

[0009] The bottom of the toothed ring is connected to the top of the material support plate, and the inner wall of the connecting sleeve is connected to the outer wall of the rotating rod.

[0010] As a further description of the above technical solution:

[0011] One end of the worm gear is rotatably connected to one side of the inner fixing block, and the other end of the worm gear is connected to one side of the fixing block on the other side.

[0012] As a further description of the above technical solution:

[0013] The outer wall of the housing is connected to an external pipe, and the other end of the external pipe is connected to the air outlet of an external hot air blower.

[0014] As a further description of the above technical solution:

[0015] Multiple adjustment devices are provided on both sides of the inner wall of the box. Each adjustment device includes a side groove. Rotating grooves are opened on both sides of the inner wall of the side groove. Rotating blocks are rotatably connected in the rotating grooves, and the same guide plate is connected between the two rotating blocks. An adjustment groove is opened on one side of the guide plate. An adjustment block is slidably connected to the inner wall of the adjustment groove. Transmission blocks are opened on both sides of the adjustment block. Transmission grooves are opened on both sides of the inner wall of the adjustment groove. A connecting rod is connected to one side of the adjustment block, and two connecting rods on the same layer are connected to the same push-pull rod at one end. A through groove is opened on one side of the inner wall of the side groove, and the other side of the through groove extends to the outside of the box.

[0016] As a further description of the above technical solution:

[0017] The side groove is opened on one side of the inner wall of the box, and the outer wall of the transmission block is slidably connected to the inner wall of the transmission groove. The outer wall of the connecting rod is slidably connected to the inner wall of the through groove, and one end of the connecting rod extends out of the box through the through groove. The bottom of the guide plate is higher than the top of the material support plate.

[0018] In summary, due to the adoption of the above technical solution, the beneficial effects of this utility model are:

[0019] 1. In this utility model, by setting up a flipping device, the drive module drives the rotating rod to rotate, the rotating rod drives the connecting sleeve to rotate, the connecting sleeve drives the support plate to move, and then the support plate drives the gear to move through the fixed block, so that the gear moves on the top of the gear ring, and then the gear ring drives the gear to rotate, so that the gear drives the worm wheel to rotate through the worm gear, the worm wheel drives the rotating plate to rotate through the rotating shaft, and the rotating plate drives the flipping frame to rotate, so that the flipping frame flips the tea leaves on the top of the receiving plate, so that the tea leaves at the bottom move outward through flipping, and thus the tea leaves at the bottom come into full contact with the hot air, ensuring the overall drying effect of the tea leaves.

[0020] 2. In this utility model, by setting an adjustment device, by pushing the push-pull rod, the push-pull rod drives the connecting rod to move, the connecting rod drives the adjustment block to move, the adjustment block drives the transmission block to move, and the transmission block drives the guide plate to move outward, so that the guide plate rotates around the rotating groove, thereby forming a guiding slope with the inner wall of the box, and thus the guide plate guides the hot air blown in from the top, so that the hot air flows to the top of the tea leaves, thereby improving the drying efficiency. Attached Figure Description

[0021] Figure 1 This is a three-dimensional structural diagram of a drying device based on tea processing proposed in this utility model;

[0022] Figure 2 This is a schematic diagram of the turning device structure of a drying apparatus based on tea processing proposed in this utility model;

[0023] Figure 3 This is a schematic diagram of the internal structure of a drying device for tea processing proposed in this utility model.

[0024] Figure 4 This is a schematic diagram of the adjustment device structure of a drying device based on tea processing proposed in this utility model;

[0025] Figure 5 This utility model proposes a drying device based on tea processing. Figure 4 Enlarged structural diagram of section A;

[0026] Figure 6 This is a schematic cross-sectional view of the box structure of a drying device based on tea processing proposed in this utility model;

[0027] Figure 7 This utility model proposes a drying device based on tea processing. Figure 6 Enlarged structural diagram of section B.

[0028] Legend: 1. Box body; 2. Control module; 3. Material support plate; 4. Rotating rod; 5. Drive module; 6. External pipe; 7. Support block; 8. Adjusting device; 801. Push-pull rod; 802. Connecting rod; 803. Guide plate; 804. Rotating block; 805. Transmission block; 806. Adjusting block; 807. Adjusting groove; 808. Transmission groove; 809. Side groove; 810. Rotating groove; 811. Through groove; 9. Tilting device; 901. Gear; 902. Fixing block; 903. Worm; 904. Gear ring; 905. Worm wheel; 906. Connecting sleeve; 907. Support plate; 908. Rotating plate; 909. Tilting frame. Detailed Implementation

[0029] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of the present utility model.

[0030] Please see Figures 1-7 This utility model provides a technical solution: a drying device based on tea processing, including a housing 1 and a control module 2. Multiple support blocks 7 are connected to the inner wall of the housing 1, and the same material support plate 3 connects the multiple support blocks 7 on the same layer. A drive module 5 is installed at the bottom of the housing 1, and a rotating rod 4 is connected to the output end of the drive module 5. A flipping device 9 is connected to the outer wall of the rotating rod 4. The bottom of the control module 2 is connected to the top of the housing 1. The flipping device 9 includes a connecting sleeve 906, and a support plate 907 is connected to the outer wall of the connecting sleeve 906. Multiple bearings are embedded in the support plate 907, and a rotating shaft is rotatably connected within the bearings. A rotating plate 908 is connected to the bottom of the rotating shaft. The bottom of the 08 is connected to a flipping frame 909, and the top of the rotating shaft is connected to a worm gear 905. The outer walls of multiple worm gears 905 are meshed with the same worm 903. One end of the worm 903 is connected to a gear 901. The outer wall of the gear 901 is meshed with a gear ring 904. The top of the support plate 907 is connected to two fixing blocks 902. The bottom of the gear ring 904 is connected to the top of the material support plate 3, and the inner wall of the connecting sleeve 906 is connected to the outer wall of the rotating rod 4. One end of the worm 903 is rotatably connected to one side of the inner fixing block 902, and the other end of the worm 903 is connected to one side of the fixing block 902 on the other side. The outer wall of the housing 1 is connected to an external pipe 6, and the other end of the external pipe 6 is connected to the air outlet of an external hot air blower.

[0031] In a specific implementation, a flipping device 9 is provided, which drives the rotating rod 4 to rotate via the drive module 5. The rotating rod 4 drives the support plate 907 to move via the connecting sleeve 906, causing the support plate 907 to drive the flipping frame 909 at the bottom to rotate circumferentially. Subsequently, the support plate 907 drives the fixed plate to move, causing the fixed block 902 to drive the gear 901 to move. This causes the gear 901 to move on top of the gear ring 904. Then, the gear ring 904 meshes with the gear 901, causing the gear ring 904 to drive the gear 901 to rotate. This causes the gear 901 to drive the worm gear 903 to rotate, and the worm gear 903 drives the worm wheel 905 to rotate. The worm gear 905 drives the rotating shaft to rotate, which in turn drives the rotating plate 908 to rotate. This causes the rotating plate 908 to drive the turning frame 909 to rotate, which in turn turns the tea leaves on the top of the receiving plate 3 during its circumferential rotation. This causes the tea leaves at the bottom to be stirred and moved upward by the turning frame 909, thus ensuring that the tea leaves at the bottom come into full contact with the hot air and ensuring the overall drying effect of the tea leaves. The drive module 5 is equipped with a motor and a reduction gear set. The motor drives the transmission gear inside the reduction gear set to rotate, which in turn drives the rotating rod 4 to rotate. This technology is existing technology and does not need to be described in detail.

[0032] Multiple adjustment devices 8 are provided on both sides of the inner wall of the housing 1. Each adjustment device 8 includes a side groove 809. Rotating grooves 810 are formed on both sides of the inner wall of the side groove 809. Rotating blocks 804 are rotatably connected within the rotating grooves 810, and a common guide plate 803 connects the two rotating blocks 804. An adjustment groove 807 is formed on one side of the guide plate 803. An adjustment block 806 is slidably connected to the inner wall of the adjustment groove 807. Transmission blocks 805 are formed on both sides of the adjustment block 806. Transmission grooves 808 are formed on both sides of the inner wall of the adjustment groove 807. A connecting rod 802 is connected to one side of block 806, and two connecting rods 802 on the same layer are connected to the same push-pull rod 801 at one end. A through groove 811 is opened on one side of the inner wall of the side groove 809, and the other side of the through groove 811 extends to the outside of the box 1. The side groove 809 is opened on one side of the inner wall of the box 1, and the outer wall of the transmission block 805 is slidably connected to the inner wall of the transmission groove 808. The outer wall of the connecting rod 802 is slidably connected to the inner wall of the through groove 811, and one end of the connecting rod 802 extends out of the box 1 through the through groove 811. The bottom of the guide plate 803 is higher than the top of the material support plate 3.

[0033] In a specific implementation, an adjustment device 8 is provided. By pushing the push-pull rod 801 inward, the push-pull rod 801 causes the connecting rod 802 to move. The connecting rod 802 causes the adjustment block 806 to move within the adjustment groove 807, which in turn causes the adjustment block 806 to move the transmission block 805. The transmission block 805 slides within the transmission groove 808, causing the adjustment block 806 to move one side of the guide plate 803 outward. The rotating block 804 at the top of the guide plate 803 rotates within the rotating groove 810, thereby forming a guiding angle between the guide plate 803 and the inner wall of the chamber 1. This allows the guide plate 803 to guide the hot air blowing towards the top and flowing to both sides, thus allowing the hot air to flow to the top of the tea leaves, thereby improving drying efficiency. By providing multiple push rods, the hot air can be guided to the top of different layers of tea leaves as needed, thereby improving the practicality of the device.

[0034] Working principle: During use, tea leaves are placed on top of the receiving plate 3 and spread out. Hot air is then introduced through the external pipe 6 and flows into the chamber 1. After drying for a period of time, the drive module 5 drives the rotating rod 4 to rotate. The rotating rod 4 drives the connecting sleeve 906 to rotate, which in turn drives the support plate 907 to rotate. The support plate 907 drives the fixed block 902 to move, which in turn causes the fixed block 902 to drive the gear 901 to move on top of the gear ring 904. This, in turn, causes the gear ring 904 to drive the gear 901 to rotate. The gear 901 drives the worm wheel 905 to rotate through the worm 903, which in turn drives the rotating plate 908 to rotate. The rotating plate 908 drives the turning frame 909 to rotate, which stirs the tea leaves and turns the bottom tea leaves upward, preventing the bottom tea leaves from not being in full contact with the hot air and thus reducing the drying efficiency. Then, by pushing the push rod, the push rod drives the adjusting block 806 to move through the connecting rod 802. The adjusting block 806 drives the transmission block 805 to move, which in turn causes the transmission block 805 to slide in the transmission groove 808 and drive the guide plate 803 to move. This causes the guide plate 803 to form a guiding slope, which in turn guides the circulating hot air to the surface of different layers of tea leaves, thereby improving the drying efficiency.

[0035] In this invention, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance; the term "multiple" refers to two or more unless otherwise explicitly defined. The terms "installation," "connection," "linking," and "fixing," etc., should be interpreted broadly. For example, "connection" can be a fixed connection, a detachable connection, or an integral connection; "linking" can be a direct connection or an indirect connection through an intermediate medium. Those skilled in the art can understand the specific meaning of the above terms in this invention according to the specific circumstances.

[0036] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A drying device based on tea processing, characterized in that, include; Box (1), the inner wall of the box (1) is connected to multiple support blocks (7), and the multiple support blocks (7) on the same layer are connected to the same material support plate (3). The bottom of the box (1) is equipped with a drive module (5), and the output end of the drive module (5) is connected to a rotating rod (4). The outer wall of the rotating rod (4) is connected to a flipping device (9). Control module (2), the bottom of which is connected to the top of the housing (1); The turning device (9) includes a connecting sleeve (906), the outer wall of which is connected to a support plate (907). The support plate (907) is embedded with multiple bearings, and a rotating shaft is rotatably connected inside the bearings. A rotating plate (908) is connected to the bottom of the rotating shaft. A turning frame (909) is connected to the bottom of the rotating plate (908). The tea is stirred by rotating the turning frame (909).

2. The drying device based on tea processing according to claim 1, characterized in that, The top of the rotating shaft is connected to a worm gear (905), and the outer walls of multiple worm gears (905) are meshed with the same worm (903). One end of the worm (903) is connected to a gear (901), and the outer wall of the gear (901) is meshed with a gear ring (904). The top of the support plate (907) is connected to two fixing blocks (902).

3. A drying device based on tea processing according to claim 2, characterized in that, The bottom of the toothed ring (904) is connected to the top of the material support plate (3), and the inner wall of the connecting sleeve (906) is connected to the outer wall of the rotating rod (4).

4. A drying device based on tea processing according to claim 2, characterized in that, One end of the worm (903) is rotatably connected to one side of the inner fixing block (902), and the other end of the worm (903) is connected to one side of the fixing block (902) on the other side.

5. A drying device based on tea processing according to claim 1, characterized in that, The outer wall of the housing (1) is connected to an external pipe (6), and the other end of the external pipe (6) is connected to the air outlet of an external hot air blower.

6. A drying device based on tea processing according to claim 1, characterized in that, The inner walls of the housing (1) are provided with multiple adjustment devices (8) on both sides. Each adjustment device (8) includes a side groove (809). Rotating grooves (810) are provided on both sides of the inner wall of the side groove (809). Rotating blocks (804) are rotatably connected in the rotating grooves (810), and the same guide plate (803) is connected between the two rotating blocks (804). An adjustment groove (807) is provided on one side of the guide plate (803). The inner wall of the adjustment groove (807) is slidably connected. An adjusting block (806) is connected, and a transmission block (805) is provided on both sides of the adjusting block (806). A transmission groove (808) is provided on both sides of the inner wall of the adjusting groove (807). A connecting rod (802) is connected to one side of the adjusting block (806), and one end of the two connecting rods (802) on the same layer is connected to the same push-pull rod (801). A through groove (811) is provided on one side of the inner wall of the side groove (809), and the other side of the through groove (811) extends to the outside of the box body (1).

7. A drying device based on tea processing according to claim 6, characterized in that, The side groove (809) is opened on one side of the inner wall of the box (1), and the outer wall of the transmission block (805) is slidably connected to the inner wall of the transmission groove (808). The outer wall of the connecting rod (802) is slidably connected to the inner wall of the through groove (811), and one end of the connecting rod (802) extends out of the box (1) through the through groove (811). The bottom of the guide plate (803) is higher than the top of the material support plate (3).