Electronic component baking manufacturing apparatus

By designing an electronic component drying and manufacturing device with drying and lifting components, the problems of uneven heating and size adaptability of electronic components during the drying process were solved, achieving uniform heat transfer and consistent drying quality, thus improving efficiency and effectiveness.

CN224340569UActive Publication Date: 2026-06-09SHANGHAI JILILI TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI JILILI TECHNOLOGY CO LTD
Filing Date
2025-06-10
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Uneven heating during the drying process of electronic components leads to localized areas of excessively high or low temperatures, resulting in uneven heat transfer and inconsistent drying quality. Traditional equipment is also ill-suited for electronic components of different sizes, affecting drying efficiency and effectiveness.

Method used

An electronic component drying and manufacturing device was designed, which includes a drying component and a lifting component. The angle of the support rod and the fixed baffle is adjusted by a servo motor-driven worm gear mechanism. Combined with the height adjustment of the adjustable baffle, the heat flow is evenly distributed. The device is cooled by a jacket and water pump system, which can accommodate electronic components of different sizes.

Benefits of technology

It achieves uniform heat transfer, improves the consistency of drying quality, enhances adaptability to electronic components of different specifications, and improves drying efficiency and effect.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224340569U_ABST
    Figure CN224340569U_ABST
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Abstract

The utility model provides electronic component drying manufacturing device belongs to electronic component technical field, including base, the top of base is provided with the drying assembly for electronic component drying manufacturing, the top of base is provided with the lifting assembly for adjusting height, the utility model discloses through setting up drying assembly, when using through the control panel start servo motor, drive the rotation of worm, drive the rotation of worm wheel, make the support rod rotate, drive the rotation of fixed leakage plate, put the electronic component of needing drying into fixed leakage plate, after closing the lid, start the electric heating tube and fan, produce the hot flow and carry out the drying of electronic component on fixed leakage plate.
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Description

Technical Field

[0001] This utility model relates to the field of electronic components technology, and more specifically, to an electronic component drying and manufacturing apparatus. Background Technology

[0002] As a fundamental component of electronic devices, the performance and reliability of electronic components directly affect the quality of end products. In the production process of electronic components, the drying process is one of the key steps to ensure product quality.

[0003] A search revealed that Chinese Patent Publication No. CN220187254U discloses "an electronic component drying device, relating to the field of electronic component drying technology, including a drying chamber, a drying chamber door rotatably connected to the front of the drying chamber, an upper reversing shell fixedly connected to the upper part of the drying chamber, a lower reversing shell fixedly connected to the lower part of the drying chamber, and drying support feet fixedly connected to the lower part of the drying chamber. A drying assembly is provided on the drying chamber, including a drying fan installed on the upper part of the drying chamber. Through the upper and lower drying chambers, the electronic components can be dried in both vertical directions, increasing the coverage area of ​​the drying airflow and improving drying efficiency. It is also convenient to use. The upper and lower reversing shells can change the flow direction of the airflow inside the drying chamber, thereby removing dust from the drying chamber and the drying fan and preventing dust adhesion." However, the following drawbacks still exist:

[0004] (1) In actual production and application, electronic components are subject to different heating conditions. The temperature in some areas is too high or too low, and the heat cannot be transferred evenly, resulting in uneven drying of different parts of the components, which in turn makes the drying quality show obvious unevenness.

[0005] (2) In practical applications, electronic components come in a variety of sizes and require drying. However, traditional drying devices are often limited by space, making it difficult to fit larger components, which affects drying efficiency and effectiveness. Therefore, an electronic component drying and manufacturing device is proposed. Utility Model Content

[0006] The purpose of this invention is to address the current problem that, in actual production and application, electronic components experience varying degrees of heating, resulting in localized areas with excessively high or low temperatures and uneven heat transfer. This leads to inconsistent drying levels across different parts of the components, resulting in significant uneven drying quality. In practical applications, electronic components come in a variety of sizes, and drying requirements are widespread. However, traditional drying devices often struggle to accommodate larger components due to space limitations, affecting drying efficiency and effectiveness.

[0007] To achieve the above-mentioned objectives, this utility model provides the following technical solution:

[0008] The present invention is as follows: an electronic component drying and manufacturing apparatus, including a base, a drying component for drying and manufacturing electronic components on the top of the base, and a lifting component for adjusting the height on the top of the base.

[0009] The drying assembly includes a cylindrical housing mounted on top of a base. Four fans are mounted on the top of the base. A support rod with a threaded surface is rotatably mounted on the bottom of the base. Four fixed baffles are mounted around the support rod. The bottom of the support rod passes through the base and extends to the outside of the base. A worm gear is welded to the end of the support rod outside the base. A servo motor is mounted on the bottom of the base, and a worm gear is mounted on the output end, meshing with the worm wheel. A cylindrical housing is welded to the top of the base. The housing has rectangular openings on its periphery, and a cover is hinged to the openings. An electric heating element is mounted on the inner bottom of the housing. A control panel is mounted on the side of the housing near the opening.

[0010] As a preferred technical solution of this utility model, the lifting assembly includes a threaded circular plate that is threadedly connected to the support rod. There are four threaded circular plates, which are respectively located above four fixed slotted plates. An adjustable slotted plate overlaps the top of the threaded circular plate, and a spring is installed at the bottom of the threaded circular plate. The end of the spring away from the threaded circular plate is fixedly connected to the top of the fixed slotted plate.

[0011] As a preferred technical solution of this utility model, a sandwich layer is provided on the periphery of the outer shell, and the shape is an incomplete cylinder, which is coaxially arranged with the outer shell. A water storage tank is welded to the top of the outer shell. A first water pump and a second water pump are installed at the bottom of the inner side of the water storage tank. The inlet of the first water pump is located inside the water storage tank, and the outlet pipe passes through the water storage tank and is connected to the top of the sandwich layer. The inlet of the second water pump is connected to the bottom of the sandwich layer by a water pipe, and the outlet is located inside the water storage tank. A pipe cover is provided on the top of the water storage tank.

[0012] As a preferred technical solution of this utility model, the part of the cover that fits into the outer shell is bonded with a padding layer, and the material is rubber.

[0013] As a preferred technical solution of this utility model, the periphery of the interlayer is welded with handles, and the number of handles is two; the bottom of the base is welded with wheels, and the number of wheels is four, which are evenly distributed.

[0014] As a preferred technical solution of this utility model, a heat insulation board is bonded to the inner bottom of the water storage tank, and the material is rock wool.

[0015] As a preferred technical solution of this utility model, an ultraviolet irradiation lamp is installed on the inner top of the outer shell, and the lamp is circular in shape.

[0016] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0017] 1. By setting up the drying components, the servo motor is started via the control panel during use, which drives the worm gear to rotate, which in turn drives the support rod to rotate, which in turn drives the fixed baffle plate to rotate. The electronic components to be dried are placed on the fixed baffle plate. After closing the cover, the heating element and the fan are started to generate heat flow to dry the electronic components on the fixed baffle plate.

[0018] 2. By setting up a lifting component, the height of the threaded disc can be adjusted by rotating the threaded disc during use, which in turn drives the adjustable strainer attached to the top of the threaded disc to rise and fall to control the required height. At the same time, the spring at the bottom of the threaded disc provides support to prevent the threaded disc from falling. Electronic components that need to be dried can also be placed in the adjustable strainer, increasing space utilization efficiency. Attached Figure Description

[0019] Figure 1 A schematic diagram of the electronic component drying and manufacturing apparatus provided by this utility model;

[0020] Figure 2 Left view of the electronic component drying and manufacturing apparatus provided by this utility model;

[0021] Figure 3 The electronic component drying and manufacturing apparatus provided by this utility model Figure 2 A schematic diagram of the three-dimensional cross-sectional structure at point AA;

[0022] Figure 4 The electronic component drying and manufacturing apparatus provided by this utility model Figure 2 A schematic diagram of the three-dimensional cross-sectional structure at point BB;

[0023] Figure 5 The electronic component drying and manufacturing apparatus provided by this utility model Figure 2 A schematic diagram of the three-dimensional cross-sectional structure at point CC;

[0024] Figure 6 A schematic diagram of the bottom structure of the electronic component drying and manufacturing apparatus provided by this utility model;

[0025] Figure 7 A partial structural schematic diagram of the lifting mechanism of the electronic component drying and manufacturing device provided by this utility model.

[0026] The diagram shows: 1. Base; 2. Drying assembly; 3. Lifting assembly; 201. Outer shell; 202. Fan; 203. Support rod; 204. Fixed strainer; 205. Worm gear; 206. Servo motor; 207. Worm; 208. Cover; 209. Heating element; 210. Control panel; 301. Threaded round plate; 302. Adjustable strainer; 303. Spring; 4. Interlayer; 5. Water tank; 6. First water pump; 7. Second water pump; 8. Water pipe; 9. Pipe cover; 10. Pad; 11. Handle; 12. Wheel; 13. Heat insulation board; 14. Ultraviolet irradiation lamp. Detailed Implementation

[0027] 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.

[0028] Therefore, the following detailed description of the embodiments of this utility model is not intended to limit the scope of the claimed utility model, but merely to illustrate some embodiments of the utility model. All other embodiments obtained by those skilled in the art based on the embodiments of this utility model without inventive effort are within the scope of protection of this utility model.

[0029] It should be noted that, unless otherwise specified, the embodiments and features and technical solutions in the present invention can be combined with each other.

[0030] It should be noted that similar labels and letters in the following figures indicate similar items. Therefore, once an item is defined in one figure, it does not need to be further defined and explained in subsequent figures.

[0031] like Figure 1 As shown, this embodiment proposes an electronic component drying and manufacturing apparatus, including a base 1, a drying component 2 for drying and manufacturing electronic components, and a lifting component 3 for adjusting the height.

[0032] like Figure 5 , Figure 6 and Figure 7As shown, the drying assembly 2 includes a cylindrical housing 201 mounted on top of the base 1. Four fans 202 are mounted on the top of the base 1. A support rod 203 with a threaded surface is rotatably mounted on the bottom of the base 1. Four fixed trays 204 are mounted around the support rod 203 for placing electronic components to be dried. The bottom of the support rod 203 penetrates the base 1 and extends to the outside of the base 1. A worm gear 205 is welded to the end of the support rod 203 located outside the base 1. A servo motor 206 is mounted on the base 1 to provide power, and a worm gear 207 is mounted at the output end. The worm gear 207 meshes with the worm wheel 205. 7 can drive the rotation of the fixed stencil 204. The top of the base 1 is welded with a shell 201, which is cylindrical in shape. The shell 201 has an opening on its periphery and is rectangular in shape. A cover 208 is hinged to the opening of the shell 201 to seal the shell 201. An electric heating tube 209 is installed at the bottom inside the shell 201. A control panel 210 is installed on the side of the shell 201 near the opening. When in use, the servo motor 206 is started through the control panel 210, which drives the worm gear 207 to rotate, drives the worm wheel 205 to rotate, so that the support rod 203 rotates, which drives the fixed stencil 204 to rotate. The electronic components to be dried are placed in the fixed stencil 204. After closing the cover 208, the electric heating tube 209 and the fan 202 are started to generate heat flow to dry the electronic components on the fixed stencil 204.

[0033] like Figure 5 , Figure 6 and Figure 7 As shown, the lifting assembly 3 includes four threaded circular plates 301 threadedly connected to the support rod 203, each located above a fixed drain plate 204. An adjustable drain plate 302 overlaps the top of each threaded circular plate 301, allowing adjustment of the storage spacing for electronic components. A spring 303 is installed at the bottom of each threaded circular plate 301, with one end of the spring 303, away from the threaded circular plate 301, fixedly connected to the top of the fixed drain plate 204. During use, rotating the threaded circular plate 301 adjusts its height, causing the adjustable drain plate 302 on top of the threaded circular plate 301 to rise or fall as needed. Simultaneously, the spring 303 at the bottom of the threaded circular plate 301 provides support, preventing it from descending. Electronic components requiring drying can be placed in the adjustable drain plate 302, increasing space utilization efficiency.

[0034] like Figure 1 , Figure 3 and Figure 5As shown, a layer 4 is provided around the periphery of the outer shell 201, and its shape is an incomplete cylinder. It is coaxially arranged with the outer shell 201. A water storage tank 5 is welded to the top of the outer shell 201. A first water pump 6 and a second water pump 7 are installed at the bottom of the inner side of the water storage tank 5. The inlet of the first water pump 6 is located inside the water storage tank 5, and the outlet pipe 8 passes through the water storage tank 5 and is connected to the top of the layer 4. The inlet of the second water pump 7 is connected to the bottom of the layer 4 by a water pipe 8, and the outlet is located inside the water storage tank 5. A pipe cover 9 is provided on the top of the water storage tank 5. When in use, the pipe cover 9 is opened first and coolant is poured in. Then, the first water pump 6 draws coolant from the water storage tank 5 and it flows into the layer 4. The layer 4 exchanges heat with the drying component 2 to cool down the dried electronic components, so that the dried electronic components can be taken out quickly. After cooling, the second water pump 7 draws the coolant back from the layer 4 to the water storage tank 5.

[0035] like Figure 6 As shown, a pad 10 is bonded to the part where the cover 208 fits against the outer shell 201. The material is rubber. When in use, by closing the cover 208, the pad 10 will seal the gap at the junction of the cover 208 and the outer shell 201.

[0036] like Figure 3 and Figure 6 As shown, two handles 11 are welded to the periphery of the interlayer 4, and four wheels 12 are welded to the bottom of the base 1. The machine can be moved by lifting the handles 11 or by pushing or pulling the wheels 12.

[0037] like Figure 5 As shown, a heat insulation board 13 made of rock wool is bonded to the bottom of the water storage tank 5. When in use, the heat insulation board 13 will further hinder the heat exchange between the bottom of the water storage tank 5 and the drying component 2, thereby reducing heat loss.

[0038] like Figure 6 As shown, an ultraviolet lamp 14 is installed on the inner top of the housing 201, and it is circular in shape. When in use, the ultraviolet lamp 14 is turned on to sterilize the electronic components.

[0039] Specifically, in use, this electronic component drying and manufacturing device works as follows: By setting up the drying assembly 2, the servo motor 206 is started via the control panel 210, driving the worm gear 207 to rotate, which in turn drives the worm wheel 205 to rotate, causing the support rod 203 to rotate, which in turn drives the fixed tray 204 to rotate. The electronic components to be dried are placed on the fixed tray 204. After closing the cover 208, the heating element 209 and the fan 202 are started to generate heat flow to dry the electronic components on the fixed tray 204 (e.g., ...). Figure 5 and Figure 6As shown), by setting up the lifting component 3, the height of the threaded circular plate 301 can be adjusted by rotating it during use. This causes the adjustable strainer 302, which overlaps the top of the threaded circular plate 301, to rise or fall to the required height. Simultaneously, the spring 303 at the bottom of the threaded circular plate 301 provides support, preventing it from descending. Electronic components that need drying can also be placed in the adjustable strainer 302, increasing space utilization efficiency. (e.g.) Figure 6 and Figure 7 (As shown).

[0040] All technical features in this embodiment can be freely combined according to actual needs.

[0041] The above embodiments are preferred implementations of this utility model. In addition, this utility model can also be implemented in other ways. Any obvious substitutions without departing from the concept of this technical solution are within the protection scope of this utility model.

Claims

1. An electronic component drying and manufacturing apparatus, comprising a base (1), characterized in that, The top of the base (1) is provided with a drying assembly (2) for drying and manufacturing electronic components, and the top of the base (1) is provided with a lifting assembly (3) for adjusting the height; The drying assembly (2) includes a housing (201) mounted on the top of the base (1), and the housing (201) is cylindrical in shape. Four fans (202) are mounted on the top of the base (1). A support rod (203) is rotatably mounted on the bottom of the base (1), and the surface of the support rod (203) has a threaded surface. Four fixed perforated plates (204) are mounted around the support rod (203). The bottom of the support rod (203) penetrates the base (1) and extends to the outside of the base (1). The support rod (203) is located outside the base (1). A worm gear (205) is welded to one end. A servo motor (206) is installed at the bottom of the base (1), and a worm (207) is installed at the output end. The worm (207) meshes with the worm gear (205). A shell (201) is welded to the top of the base (1) and is cylindrical in shape. The shell (201) has an opening on its periphery and is rectangular in shape. A cover (208) is hinged to the opening of the shell (201). An electric heating tube (209) is installed at the bottom inside the shell (201). A control panel (210) is installed on the side of the shell (201) near the opening.

2. The electronic component drying and manufacturing apparatus according to claim 1, characterized in that, The lifting assembly (3) includes a threaded circular plate (301) threadedly connected to the support rod (203). There are four threaded circular plates (301), which are located above four fixed drain plates (204). An adjustable drain plate (302) overlaps the top of the threaded circular plate (301). A spring (303) is installed at the bottom of the threaded circular plate (301), and the end of the spring (303) away from the threaded circular plate (301) is fixedly connected to the top of the fixed drain plate (204).

3. The electronic component drying and manufacturing apparatus according to claim 1, characterized in that, The outer shell (201) has a sandwich layer (4) around its periphery, which is an incomplete cylindrical shape and is coaxial with the outer shell (201). A water storage tank (5) is welded to the top of the outer shell (201). A first water pump (6) and a second water pump (7) are installed at the bottom of the inner side of the water storage tank (5). The inlet of the first water pump (6) is located inside the water storage tank (5), and the outlet pipe (8) passes through the water storage tank (5) and is connected to the top of the sandwich layer (4). The inlet of the second water pump (7) is connected to the bottom of the sandwich layer (4) by a water pipe (8), and the outlet is located inside the water storage tank (5). A pipe cover (9) is provided on the top of the water storage tank (5).

4. The electronic component drying and manufacturing apparatus according to claim 1, characterized in that, The part of the cover (208) that fits against the outer shell (201) is bonded with a pad (10) made of rubber.

5. The electronic component drying and manufacturing apparatus according to claim 3, characterized in that, The interlayer (4) is welded with handles (11) on its periphery, and there are two handles (11). The bottom of the base (1) is welded with wheels (12), and there are four wheels (12) evenly distributed.

6. The electronic component drying and manufacturing apparatus according to claim 3, characterized in that, The bottom of the water storage tank (5) is bonded with a heat insulation board (13) made of rock wool.

7. The electronic component drying and manufacturing apparatus according to claim 1, characterized in that, The inner top of the outer casing (201) is equipped with an ultraviolet irradiation lamp (14), which is in the shape of a ring.