A drying device with angle adjustment function

By designing an angle-adjustable and support-component drying device, the problem of the drying frame not being able to be disassembled independently was solved, enabling flexible angle adjustment and stable support of the drying rack, improving drying efficiency and ease of collection, and preventing damage to agricultural products.

CN224455213UActive Publication Date: 2026-07-03KAIXIAN QINGLONG AGRI DEV CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
KAIXIAN QINGLONG AGRI DEV CO LTD
Filing Date
2025-08-19
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

In existing drying devices, the drying frame is fixed to the device structure and cannot be disassembled or removed as a whole after drying. This makes it inconvenient to collect agricultural products, time-consuming and labor-intensive, and easily damages the agricultural products, affecting the efficiency and convenience of collection.

Method used

A drying device with angle adjustment function was designed. Multiple drying racks can be adjusted and stably supported synchronously through adjustment and support components. The drying frame can be tilted and slid down for collection. Combined with the telescopic frame, it provides stable support and prevents shaking and slippage.

Benefits of technology

It improves drying and harvesting efficiency, ensures that the drying surface can flexibly adapt to the direction of sunlight, prevents damage to the dried items, and enhances operational safety and convenience.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to a drying device with an angle adjustment function, belonging to the technical field of drying devices. The drying device with an angle adjustment function includes: two support plates, with multiple drying racks mounted on the top of the two support plates; and an adjusting drying mechanism, which is located on the top of the support plates for simultaneously adjusting the multiple drying racks. The adjusting drying mechanism includes a connecting frame rotatably mounted on the outside of the multiple drying racks, with an adjusting component on the outside of the connecting frame. A supporting component is provided between the support plates and adjacent drying racks. The adjusting component allows for simultaneous adjustment of the angles of the multiple drying racks, enabling the drying surface to flexibly adapt to the direction of sunlight and improving drying efficiency. After drying, the drying racks can be tilted as a whole, facilitating the collection of agricultural products and improving collection efficiency. The supporting component provides stable support after adjustment, preventing the drying racks from swaying or collapsing, ensuring safe use.
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Description

Technical Field

[0001] This utility model relates to the field of drying device technology, and in particular to a drying device with angle adjustment function. Background Technology

[0002] Many agricultural products require sun-drying after harvesting to reduce moisture content and facilitate storage and subsequent processing. However, in practical applications, traditional flat-laying sun-drying methods are insufficient to meet the demand for simultaneous drying of large quantities of agricultural products due to limited space. Therefore, some technical solutions attempt to utilize vertical space for sun-drying operations to improve space utilization.

[0003] As shown in the reference case "A Drying Device for Agricultural Products" (Announcement No. CN221549147U), this device consists of drying racks, drying perforated plates, and rotating connecting plates. Agricultural products can be dried on each of the perforated plates. The first, second, and third threaded shafts drive the three drying racks upwards sequentially, drying the agricultural products vertically and saving floor space. Simultaneously, an auxiliary motor drives each drying perforated plate to rotate, facilitating convenient collection of crops from the discharge holes.

[0004] However, existing devices generally have the problem that the drying frame is fixed to the device structure. After drying, the drying frame cannot be disassembled separately or taken out as a whole, which makes it inconvenient to collect agricultural products. It requires manual cleaning layer by layer, which is not only time-consuming and labor-intensive, but also easily damages the dried products, seriously affecting the collection efficiency and convenience of operation. Utility Model Content

[0005] Based on this, it is necessary to address the common problem in existing devices where the drying frame is fixed to the device structure, making it impossible to disassemble or remove the drying frame as a whole after drying. This causes inconvenience in collecting agricultural products, requiring manual cleaning layer by layer, which is not only time-consuming and labor-intensive but also easily damages the dried items, seriously affecting collection efficiency and ease of operation. Therefore, a drying device with angle adjustment function is provided, comprising: two support plates, with multiple drying racks mounted on the top of the two support plates; and an adjusting drying mechanism, which is located on the top of the support plates for synchronously adjusting the multiple drying racks. The adjusting drying mechanism includes a connecting frame rotatably mounted on the outside of the multiple drying racks, with an adjusting component on the outside of the connecting frame, and a supporting component between the support plates and adjacent drying racks.

[0006] The adjustment assembly includes two adjustment frames rotatably mounted on the outside of the connecting frame. Each of the two adjustment frames has a pulley fixedly mounted on its outside. The two pulleys are connected by a belt drive. A motor is fixedly mounted on the outside of the drying rack at the bottom. The output end of the motor is fixedly connected to the adjacent pulley.

[0007] The drying rack has a drying frame that slides onto its top, and the bottom of the drying frame has multiple drainage holes.

[0008] The bottom of the drying rack has multiple flow ports, and each of the multiple flow ports is located on one side of an adjacent set of drainage holes.

[0009] A retaining ring is fixedly installed on the outer side of the drying frame, and the retaining ring is fixedly engaged with the inner wall of the drying rack.

[0010] The multiple leak holes are equidistantly distributed, and the multiple leak holes are all configured as strip-shaped holes.

[0011] The support assembly includes two telescopic frames disposed between the top of the support plate and the bottom of the bottom drying rack, the two telescopic frames being arranged in a V-shape.

[0012] The top of the support plate and the bottom of the adjacent drying rack are both fixedly installed with slide rails. The two slide rails are aligned with each other, and sliders are slidably installed inside each slide rail. The two sides of the two telescopic frames are rotatably connected to the corresponding sliders in the upper and lower slide rails respectively.

[0013] Beneficial effects

[0014] 1. Multiple drying racks can be adjusted simultaneously using adjustable components, allowing the drying surface to flexibly adapt to the direction of sunlight and improve drying efficiency. After drying, the drying racks can be tilted as a whole, facilitating the collection of agricultural products and improving collection efficiency. The support components provide stable support after adjustment, preventing the drying racks from swaying or collapsing and ensuring safe use.

[0015] 2. The two telescopic brackets are arranged in a V-shape, providing stable diagonal support when the drying rack is adjusted, distributing gravity and lateral forces, and preventing swaying and slippage. They can automatically extend and retract, always maintaining a reasonable support position to ensure structural stability. Attached Figure Description

[0016] To more clearly illustrate the technical solutions in this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.

[0017] Figure 1 This is a schematic diagram of the main structure of this utility model;

[0018] Figure 2 This is a schematic diagram of the adjustable drying mechanism of this utility model;

[0019] Figure 3This is a schematic diagram of the drying rack structure of this utility model;

[0020] Figure 4 This is a schematic diagram of the structure of the drying rack and drying frame of this utility model;

[0021] Figure 5 This is a schematic diagram of the support component structure of this utility model.

[0022] Figure label:

[0023] 100. Support plate; 200. Drying rack; 300. Adjustable drying mechanism; 310. Connecting frame; 320. Adjustment component; 321. Adjustment frame; 322. Drying frame; 323. Drain hole; 324. Flow port; 325. Pulley; 326. Motor; 327. Clip ring; 330. Support component; 331. Slide rail; 332. Slider; 333. Telescopic frame. Detailed Implementation

[0024] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model. All other embodiments obtained by those skilled in the art based on the embodiments of this utility model without creative effort are within the scope of protection of this utility model.

[0025] The following is combined Figures 1-5 This invention describes a drying device with an angle adjustment function.

[0026] In one embodiment, a drying device with angle adjustment function includes: two support plates 100, with multiple drying racks 200 disposed on the top of the two support plates 100; and an adjusting drying mechanism 300 disposed on the top of the support plates 100 for synchronously adjusting the multiple drying racks 200. The adjusting drying mechanism 300 includes a connecting frame 310 rotatably mounted on the outside of the multiple drying racks 200, an adjusting component 320 disposed on the outside of the connecting frame 310, and a supporting component 330 disposed between the support plates 100 and adjacent drying racks 200.

[0027] In this embodiment, the angle of multiple drying racks 200 is adjusted synchronously by the adjustment component 320, so that the drying surface can be flexibly adjusted according to the angle of sunlight, thereby improving drying efficiency. This is especially suitable for site environments with large changes in morning and evening or shade. The multiple drying racks 200 are set up in cooperation with the adjustment component 320 through the connecting frame 310, so that an integrated tilting operation can be realized after drying is completed. This makes it easy for the operator to slide or pour the dried agricultural products into the collection container as a whole, which significantly improves the collection efficiency. The support component 330 is set between the support plate 100 and the drying rack 200. After the angle of the drying rack 200 is adjusted, it can provide effective limiting and load-bearing support for it, preventing the drying rack 200 from shaking or collapsing in the tilted state.

[0028] It should be noted that existing agricultural product drying devices typically include: a support plate 100 for constructing the overall frame structure, a drying rack 200 for supporting the agricultural products, etc. While the adjusting component 320 and the supporting component 330 are functional improvements, their structural design does not alter the basic connection between the drying rack 200 and the support plate 100, nor do they interfere with the normal placement and use of the drying rack 200. The adjusting component 320 achieves angle adjustment via the connecting frame 310, without affecting the original load-bearing structure and ventilation conditions of the drying rack 200; the supporting component 330 serves as an auxiliary support structure, providing necessary stable support only after the angle of the drying rack 200 changes, without interfering with the drying surface.

[0029] like Figure 2 , Figure 3 and Figure 4 As shown, the adjustment assembly 320 includes two adjustment frames 321 rotatably mounted on the outside of the connecting frame 310. Each of the two adjustment frames 321 has a pulley 325 fixedly mounted on its outside. The two pulleys 325 are connected by a belt drive. A motor 326 is fixedly mounted on the outside of the drying rack 200 at the bottom. The output end of the motor 326 is fixedly connected to the adjacent pulley 325.

[0030] In this embodiment, by setting the pulley 325 and the belt drive structure, a synchronous linkage mechanism is formed between multiple adjustment racks 321. Under the drive of the motor 326, the tilt angle of multiple drying racks 200 can be adjusted at the same time, which significantly improves the operating efficiency and is particularly suitable for drying scenarios that require frequent angle adjustments.

[0031] It should be noted that the motor 326 and pulley 325, as key transmission components in the adjustment assembly 320, do not interfere with the normal drying function of the drying device. The motor 326 is installed on the outside of the bottom drying rack 200 and does not participate in the process of carrying and placing agricultural products, thus avoiding direct contact with the drying area and not affecting the ventilation, light exposure, and dehumidification effect of the drying rack 200. The motor 326 is fixedly connected to the adjacent pulley 325 through the output shaft, driving the pulley 325 to rotate, thereby driving the adjustment rack 321 to rotate synchronously.

[0032] A drying frame 322 is slidably installed on the top of the drying rack 200, and multiple drainage holes 323 are opened at the bottom of the drying frame 322.

[0033] In this embodiment, by sliding the drying frame 322 on the top of the drying rack 200, the dried agricultural products can be taken out as a whole along with the drying frame 322, eliminating the tedious process of picking up or turning them over one by one, significantly improving collection efficiency. It is especially suitable for the centralized collection of granular or small agricultural products after drying. The bottom of the drying frame 322 is provided with multiple drainage holes 323, which can effectively promote air circulation and moisture discharge during the drying process, improve the uniformity of drying and the drying speed, and reduce problems such as mold and dampness caused by water accumulation at the bottom or poor ventilation.

[0034] The bottom of the drying rack 200 has multiple flow ports 324, and the multiple flow ports 324 are all located on one side of the multiple adjacent drainage holes 323.

[0035] In this embodiment, multiple flow openings 324 are provided at the bottom of the drying rack 200, located on one side of the drain hole 323. This can form a good air convection path during the drying of agricultural products, which helps hot air or natural wind to flow from bottom to top through the drying frame 322, thereby accelerating moisture evaporation and improving the overall drying efficiency.

[0036] A retaining ring 327 is fixedly installed on the outside of the drying frame 322, and the retaining ring 327 is fixedly engaged with the inner wall of the drying rack 200.

[0037] In this embodiment, the retaining ring 327 is fixedly installed on the outside of the drying frame 322 and can be stably engaged with the inner wall of the drying rack 200, playing a role in limiting and positioning. Through the engaging structure of the retaining ring 327, the drying frame 322 can be effectively prevented from shifting or slipping due to vibration, wind or handling during the drying process, ensuring that the drying frame 322 always remains in the designated position.

[0038] The multiple holes 323 are equidistantly distributed, and all the holes 323 are designed as strip holes.

[0039] In this embodiment, the multiple holes 323 are equidistantly distributed and set as strip holes, which can achieve more uniform ventilation and dehumidification during the drying process. Compared with round holes, the strip hole structure has a larger opening area and better dehumidification performance, which helps moisture evaporate quickly. It is especially suitable for drying fruits and vegetables and agricultural products with high moisture content.

[0040] like Figure 2 and Figure 5 As shown, the support assembly 330 includes two telescopic frames 333 disposed between the top of the support plate 100 and the bottom of the bottom drying rack 200, the two telescopic frames 333 being arranged in a V-shape.

[0041] In this embodiment, two telescopic frames 333 are arranged in a V-shape between the top and bottom drying racks 200 of the support plate 100. They can provide stable oblique support when adjusting the angle of the drying rack 200, effectively dispersing the gravity and lateral force generated by the drying rack 200 in the tilted state, preventing it from swaying or sliding down, and improving the stability of the overall structure. The telescopic frames 333 have an adjustable length function and can automatically extend and retract to match when the angle of the drying rack 200 changes, ensuring that the support force always acts in a reasonable position and achieving dynamic and stable support.

[0042] The top of the support plate 100 and the bottom of the adjacent drying rack 200 are both fixedly installed with slide rails 331. The two slide rails 331 are aligned with each other. Sliding sliders 332 are slidably installed inside the slide rails 331. The two sides of the two telescopic frames 333 are rotatably connected to the corresponding sliding sliders 332 in the upper and lower slide rails 331 respectively.

[0043] In this embodiment, the sliding track 331 and slider 332 allow both ends of the telescopic frame 333 to slide along the sliding track 331 during the angle adjustment of the drying rack 200, achieving dynamic following and smooth transition. This avoids problems such as misalignment of support points or imbalance of support force due to changes in the angle of the drying rack 200. Through the rotational connection between the slider 332 and the telescopic frame 333, a certain degree of angle self-adaptation capability can be provided when the drying rack 200 is tilted, enabling the telescopic frame 333 to maintain a stable support state at all times, enhancing the structural flexibility and stability. At the same time, the alignment design of the upper and lower sliding tracks 331 ensures that the telescopic frame 333 is subjected to uniform force and moves synchronously during the adjustment of the drying rack 200, effectively reducing swaying and offset, and ensuring the safety and reliability of the drying operation.

[0044] Working Principle: Agricultural products can be placed in the drying frame 322, which is slidably installed on top of the drying rack 200. The bottom of the drying frame 322 has multiple equidistant strip-shaped perforations 323, effectively improving ventilation and dehumidification efficiency. During drying, natural wind or hot air can pass upwards through the perforations 323 via multiple air vents 324 at the bottom of the drying rack 200, forming a continuous air convection path, promoting rapid evaporation of moisture and improving drying uniformity. A retaining ring 327 is provided on the outer side of the drying frame 322, engaging with the inner wall of the drying rack 200 to ensure the stability of the drying frame 322 during drying or movement, preventing slippage or displacement. When the drying angle needs to be adjusted, the motor 326 in the adjusting assembly 320 can be activated. The motor 326 drives the bottom pulley 325 to rotate, achieving synchronous rotation of multiple adjusting frames 321 via belt drive, which in turn drives the connecting frame 310 to rotate synchronously, enabling the overall angle adjustment of multiple drying racks 200 to adapt to sunlight. The change in the angle of illumination improves the efficiency of light utilization. During the adjustment process, the two telescopic frames 333 arranged in a figure-eight shape in the support component 330 can automatically extend and retract and adjust the position of the support points according to the angle of the drying rack 200, with the cooperation of the slider 332 and the slide rail 331. This ensures that the drying rack 200 can be stably supported at any angle, avoiding structural shaking or collapse. After drying is completed, the drying frame 322 can be removed as a whole, enabling quick collection of agricultural products. This is especially suitable for small crops that are difficult to pick up one by one.

[0045] It should be noted that the motors and other components mentioned above are all devices with relatively mature existing technologies. The specific model can be selected according to actual needs. The motor can be powered by a built-in power supply or by AC power. The specific power supply method should be selected according to the situation, and will not be elaborated here.

[0046] The above embodiments are only used to illustrate the technical solutions of this utility model, and are not intended to limit it. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions will not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of this utility model.

Claims

1. A drying device having an angle adjustment function, characterized by, include: Two support plates (100), and multiple drying racks (200) are provided on the top of the two support plates (100); Adjustable drying mechanism (300) for synchronously adjusting multiple drying racks (200) The adjustable drying mechanism (300) is located on the top of the support plate (100); The adjustable drying mechanism (300) includes a connecting frame (310) rotatably mounted on the outside of the plurality of drying racks (200), an adjusting component (320) is provided on the outside of the connecting frame (310), and a supporting component (330) is provided between the supporting plate (100) and the adjacent drying rack (200).

2. The clothes drying apparatus having an angle adjustment function according to claim 1, wherein The adjustment assembly (320) includes two adjustment frames (321) rotatably mounted on the outside of the connecting frame (310). Each of the two adjustment frames (321) is fixedly mounted with a pulley (325) on its outside. The two pulleys (325) are connected by a belt drive. A motor (326) is fixedly mounted on the outside of the drying rack (200) at the bottom. The output end of the motor (326) is fixedly connected to the adjacent pulley (325).

3. The clothes drying apparatus having an angle adjustment function according to claim 2, wherein The top of the drying rack (200) is slidably fitted with a drying frame (322), and the bottom of the drying frame (322) is provided with a plurality of drainage holes (323).

4. The clothes drying apparatus having an angle adjustment function according to claim 3, wherein The bottom of the drying rack (200) is provided with multiple flow ports (324), and the multiple flow ports (324) are located on one side of adjacent multiple drain holes (323).

5. The clothes drying apparatus having an angle adjustment function according to claim 3, wherein A retaining ring (327) is fixedly installed on the outside of the drying frame (322), and the retaining ring (327) is fixedly engaged with the inner wall of the drying rack (200).

6. The clothes drying apparatus having an angle adjustment function according to claim 3, wherein The multiple holes (323) are equidistantly distributed, and the multiple holes (323) are all configured as strip holes.

7. The clothes drying apparatus having an angle adjustment function according to claim 1, wherein The support assembly (330) includes two telescopic frames (333) disposed between the top of the support plate (100) and the bottom of the bottom drying rack (200), the two telescopic frames (333) being arranged in a V-shape.

8. The clothes drying apparatus having an angle adjustment function according to claim 7, wherein The top of the support plate (100) and the bottom of the adjacent drying rack (200) are both fixedly installed with slide rails (331). The two slide rails (331) are aligned with each other. Slider blocks (332) are slidably installed inside the slide rails (331). The two sides of the telescopic frames (333) are rotatably connected to the corresponding sliders (332) in the upper and lower slide rails (331) respectively.